OWC Jupiter Kore User guide

Brand: OWC

Model: Jupiter Kore

Type: User guide

OWC Digital

Jupiter

Kore 8 Bay

Assembly Manual & User Guide

OWC DIGITAL - JUPITER KORE TABLE OF CONTENTS

TABLE OF CONTENTS

Firmware, images, and descriptions may vary slightly between this manual and the unit shipped. Functions and features may change

depending on the rmware version. Please visit the product webpage for the latest specications.

1. INTRODUCTION ....................................................................................................................................................................................1

1.1 OWC JUPITER KORE OVERVIEW (p. 1)

1.1.1 Jupiter (p. 1)

1.2.1 Jupiter Family (p. 1)

1.2 SPECIFICATIONS (p. 2)

1.2.1 Features (p. 2)

1.2.2 Beneﬁts (p. 2)

1.2.3 Technical Speciﬁcations (p. 2-3)

1.3 SYSTEM REQUIREMENTS (p. 3)

1.3.1 Host Requirements (p. 3)

1.3.2 Supported Drives (p. 3)

1.4 PACKAGE CONTENTS (p. 3)

1.5 FRONT VIEW (p. 4)

1.5.1 Drive Trays (p. 4)

1.5.2 System Status Lights (p. 4)

1.6 REAR VIEW (p. 5)

1.7 SIDE VIEW (p. 5)

1.8 INTERNAL VIEW (p. 6)

2. SYSTEM SETUP .......................................................................................................................................................................................7

2.1 RAIL INSTALLATION (p. 7-8)

2.2 UNIT RACK INSTALLATION & REMOVAL (p. 9)

2.2.1 Unit Installation (p. 9)

2.2.2 Unit Removal (p. 10)

2.3 DRIVE INSTALLATION (p. 11)

2.3.1 Drive Installation (p. 11)

2.3.2 Drive Removal (p. 11)

2.4 CONNECTIONS

2.4.1 Data Connections (p. 12)

2.4.2 Power Connections (p. 12)

2.4.3 Service Connections (p. 12)

3. SYSTEM MAINTENANCE ................................................................................................................................................................ 13

3.1 REPLACING COMPONENTS (p. 13)

3.1.1 Power Supply Unit "PSU" (p. 13)

3.1.2 Fans (p. 13-14)

3.1.3 Drives (p. 15)

3.1.4 System Controller Board (p. 16-17)

3.2 REGULAR MAINTENANCE (p. 17)

4. APPENDIX ............................................................................................................................................................................................... 18

4.1 FAQ (p. 18-19)

4.2 TROUBLESHOOTING & TIPS (p. 20)

4.3 ABOUT DATA PROTECTION (p. 20)

OWC DIGITAL - JUPITER KORE TABLE OF CONTENTS

5. TECHNICAL SUPPORT ..................................................................................................................................................................... 21

5.1 BEFORE CONTACTING TECHNICAL SUPPORT (p. 21)

5.2 TECHNICAL SUPPORT HOURS OF OPERATION (p. 21)

6. WARRANTY INFORMATION ......................................................................................................................................................... 22

7. LEGAL ......................................................................................................................................................................................................... 26

7.1 END USER LICENSE AGREEMENT (p. 26)

It is recommended that you remove all

drives from Jupiter before installing into

or removing from a rack.

AVOID INJURY!

- Never lift heavy equipment by yourself

- Use proper lifting techniques

OWC DIGITAL - JUPITER KORE INTRODUCTION

INTRODUCTION

1.1 OWC JUPITER OVERVIEW

1.1.1 Jupiter

Whether you’re an entrepreneur, IT manager, ﬁve-person design ﬁrm, or Hollywood studio, OWC Jupiter is the

perfect high-speed scalable storage solution that can grow and adapt to ever-increasing storage needs.

With Jupiter, users can now combine the highest levels of data sharing performance with the simplicity of direct

attached storage (DAS) and achieve speeds 6x faster than traditional SAN technologies. Jupiter is also easy on the

budget at a fraction of the cost of traditional SAN technologies.

1.1.2 Jupiter Family

Storage

When it comes to storage, Jupiter truly lives up to its namesake’s stature. Start with just an 8TB rack, and with its

scalability, Jupiter can be built with expander units and switches to accommodate up to 3600TB (3.6 Petabytes).

You can also utilize SSDs or hard drives to best ﬁt your storage needs. Jupiter is available as a standalone storage

solution, and as a RAID storage subsystem that supports RAID 0, 1, 5, 6, 10, 50, 60 and JBOD.

Connectivity

With Jupiter, get ready for speeds that are out of this world. Simply install the low proﬁle, two-port Jupiter

mini-SAS PCIe Card into any computer, workstation or server that accepts PCIe cards to experience the extreme

performance beneﬁts of OWC Jupiter mini-SAS enterprise-class storage. Use a single mini-SAS connection for up

to 24Gbp/s or use both connections for up to 48Gbp/s performance.

Switches

Need to expand? Connect multiple Jupiter storage systems with the powerful enterprise-class switch – available

with 8 or 16 ports. Jupiter switches feature an expansion mini-SAS port and can seamlessly integrate within an

existing Fibre infrastructure. Jupiter switches have six mini-SAS connections to connect multiple Jupiter storage

systems in a variety of ways and two host mini-SAS Connections allow you to connect to a single host system to

get peak performance.

OWC DIGITAL - JUPITER KORE INTRODUCTION

1.2 PRODUCT SPECIFICATIONS

1.2.1 Features

• 6Gb/s SAS interface

• Two x4 external mini-SAS (SFF-8088) connectors

• Utilize both connections to host for 48Gb/s of aggregated bandwidth

• Utilize one for host and the second for expansion to additional storage units

• 2U Rackmount design

• Eight 3.5" drive bays

• Supports SAS and SATA HDDs and SSDs

• Redundant (1+1) and hot swappable power supplies

• Automatic load balancing

• Hot swappable, variable speed fan modules

• System status at a glance front mounted drive, power, and fan status lights

• RAID supported via mini-SAS equipped SAS host controller cards

• RoHS compliant

• 3 year warranty with a 48 hour turnaround time

1.2.2 Beneﬁts

• High performance 6Gb/s SAS technology

• Flexible SATA+SAS array architecture optimizes cost

• 8 external high-speed SAS ports for maximum mass-storage connectivity

• Proven robust LSI serial technology

• Environmentally friendly due to low-power consumption and eﬃciency

• Compatible with 6Gb/s and 3Gb/s SATA and SAS hard disk drives and solid state drives

1.2.3 Speciﬁcations

Technical Specications

IO Controller: LSI SAS2x36

Storage Connectivity & Rates: 8 ports, 6Gb/s SAS 2.1 compliant

SAS Bandwidth: Half duplex

600 MB/s per lane

Connectors: Two extermal mini-SAS connectors (SFF-8088)

Port Congurations: Two x4 wide ports (total of eight x1 ports)

Each x4 wide port can be utilized as host connection or expansion connection

Cable Support: Passive copper

Device Support: Up to sixteen 6Gb/s or 3Gb/s SAS or SATA hard disk drives or solid state drives

OWC DIGITAL - JUPITER KORE INTRODUCTION

1.3 SYSTEM REQUIREMENTS

1.3.1 Host Requirements

Any SAS SFF-8088 equipped host system that supports SAS expander technology including Macs®, PCs, and

storage subsystems. A compatibility list with third party products can be found at: www.owcdigital.com/jupiter/

1.3.2 Supported Drives

• Up to eight 3.5” SAS or SATA drives (1.5Gb/s, 3.0Gb/s, or 6.0Gb/s)

• Up to eight 2.5” SAS or SATA drives (1.5Gb/s, 3.0Gb/s, or 6.0Gb/s) with adapter

• Drives of identical capacity / model are recommended for RAID conﬁgurations

1.4 PACKAGE CONTENTS

OWC Digital

Jupiter Kore Rack

General Specications

Front Panel Indicators: Power status, fan status

Drive Bay Indicators: Power, activity, fail

Dimensions: 3.5"(H) x 19"(W) x 23"(D)

8.89cm(H) x 48.26cm(W) x 58.42cm(D)

Rack Compatibility: Square hole and round hole mounting

Included rails supporting up to 19" (48.26cm) width and 30" (762mm) depth

Environmental: Operating

32°F to 104°F

0°C to 40°C

20 to 90% non-condensing

Non-Operating

-4°F to 176°F

-20°C to 80°C

10 to 90% non-condensing

Power Supply Unit (PSU) Specications

Type: 380W High Eﬃciency 1+1 Redundant hot-swappable with automatci load

balancing

Operating Voltage: 100~240 VAC Full Range Auto-switching with active PFC

Po: 380W High Eeﬁciency 1+1 redundant hot-swappable

Environmental: Operating

32°F to 104°F

0°C to 40°C

20 to 95% non-condensing

Non-Operating

-4°F to 176°F

-20°C to 80°C

10 to 95% non-condensing

MTBF: 223,678 hours

Eight M5 pan head screws

Twelve M5 cage nuts

Four M5 enclosure

securing screws

Two Power cables

(North America)

Flash drive containing

Jupiter manuals, drivers,

and software

Eight drive trays with

drives attached

Slide rails

Rail extensions

Mac® is a registered trademark of Apple Inc.,

registered in the U.S. and other countries

OWC DIGITAL - JUPITER KORE INTRODUCTION

1.5 FRONT VIEW

1.5.1 Drive Trays

Drive bay lights

SAS Drives SATA Drives

No activity:

Activity:

Drive Sleep:

Drive Fail:

Fast steady blue ﬂash

Blue ﬂash with access

Solid blue

Red

No activity:

Activity:

Drive Sleep:

Drive Fail:

Fast steady blue ﬂash

Blue ﬂash with access

Solid blue

Red

NOTE: Some SATA drives do not support drive activity status through the SATA

connector (pin 11) and will ﬂash a fast steady blue when installed into Jupiter

1.5.2 System Status Lights

The system status lights on the front upper right of the Jupiter Expander Rack provide an at-a-glance summary of

the health of the power and cooling systems inside.

In the event there is a problem with the thermal system or power system within the Jupiter Expander Rack, the

cooresponding system status light will turn from green to red.

Power Fans

Green:

Orange:

Red:

Status good

System startup

Power upply module failure

Green:

Orange:

Red:

Status good

System startup

Fan failure and/or high temp

OWC DIGITAL - JUPITER KORE INTRODUCTION

1.6 REAR VIEW

1 - Power Supply Unit (PSU) Modules

The Jupiter Kore has two externaly mounted redundant and hot-

swappable power supply unit (PSU) modules for increased reliability and

easy serviceability. When both modules are functioning properly, they

automatically balance the load of the entire Jupiter unit.

2 - Data Connections

The Jupiter Kore has two external mini-SAS (SFF-8088) data connections.

Each connection carries four SAS 6Gb/s data channels through it. Either

connection can function as a host link or an expansion link, though one

must always be a host link.

3 - Fan Modules

The Jupiter Kore has two externaly mounted swappable fan modules for

easy serviceablity.

4 - Power Switch

The Jupiter Kore has a rear mounted and easily accessible power

switch.

5 - Top Cover Thumbscrew

This screw must be loosened in order to remove the top cover for

servicing.

6 - Service Port

The Jupiter Kore has an RS-232 serial port for service. This port is

generally not used.

1.7 SIDE VIEW

Side view with rail attached

Side view with rail removed

5 4

263

OWC DIGITAL - JUPITER KORE INTRODUCTION

1.5 INTERNAL VIEW

1 - Backplanes

2 - Backplane mini-SAS Connections

3 - System Board mini-SAS Connections

4 - Fan Modules

5 - System Board

6 - Mini-SAS Data Cables

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

2.1 RAIL INSTALLATION

The Jupiter Kore storage system comes with rack mount slide rails attached to the sides of the unit and the

necessary screws and cage nuts for installing into 4-post square-hole rack systems. To install the slide rail brackets

into your rack, do the following:

1. The Jupiter Kore requires two rack units of

space, take note of which units on your rack

that you will install Jupiter into.

2. Install the included cage nuts into your rack

using Figure 2.1a as a guide for cage nut

placement within the 2U's that have been

designated for Jupiter.

3. On the Jupiter unit, remove the securing

screw from the rail on the left and right sides

as seen in Figure 2.1b.

4. Once the securing screws have been

removed, remove the rail arm from the Jupiter

unit by sliding it toward the rear of the unit as

seen in Figure 2.1c. When the rail arm stops,

push the release tab while continuing to slide

the rail arm oﬀ. After removing the rails, set

them aside taking note of the side from which

they were removed.

5. Remove the rail arm extensions from the

accessories box and match them to the

rails. Use Figure 2.1d as a guide for proper

matching of rails and the extension pieces.

SYSTEM SETUP

Front Placement Rear Placement

Figure 2.1a

Figure 2.1d

Right Rail

Left Rail

Extension

Left Rail

Shorter gap Shorter gap

Right Rail

Extension

Figure 2.1b

Securing screw

Figure 2.1c

Push to release

Slide

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

6. Install the front rails ﬁrst making sure the

bottom of the rail lines up with the bottom of

the designated rack units. Using Figure 2.1e

as a guide secure the rail using two of the

included M5 pan head screws.

7. Before securing the rear rail extension to

the back of your rack, make sure to slide the

extension into the rail as seen in Figure 2.1f.

8. Secure the rear rail extension to your rack use

two of the included M5 pan head screws as

seen in Figure 2.1g.

9. After securing the rear rail extension to your rack,

secure the rail extension to the rail using two of

the included M5 pan head screws as shown in

Figure 2.1h.

10. After repeating the steps for the other side,

you can now move on to installing the

Jupiter storage system into the rack as found

in section 2.2 Unit Rack Installation and

Removal on the next page.

Figure 2.1e

Figure 2.1g

Figure 2.1h

Figure 2.1f

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

2.2 UNIT RACK INSTALLATION & REMOVAL

After installing the rails, the Jupiter Kore storage system can be installed into the rack. The Jupiter unit is

heavy even when no drives are installed. Never lift heavy equipment by yourself and always use proper lifting

techniques. It is recommended that you remove all drives from Jupiter before installing into or removing from a

rack in order to avoid personal injury or damage to equipment.

2.2.1 Unit Installation

1. Before lifting and installing the Jupiter unit

into the rack, make sure all people involved in

lifting know where the unit rails are attached

to the Jupiter unit and subsequently how they

will slide into the rack rails.

2. Using proper lifting techniques and keeping

the Jupiter unit level, lift up to the rack rails

where the unit will be installed into.

3. Visually align the unit rails with the rack rails.

4. Once aligned, evenly slide the unit rails into

the rack rails. Do not release the unit until it

has been inserted all the way or till an audible

click is heard. The click indicates that the

Jupiter unit has been inserted past the safety

latches as illustrated in Figure 2.2.1a.

5. If not already done, insert the Jupiter unit all

the way into the rack until the rack ears touch

the rack posts.

6. Install the four included rack securing screws

to ﬁnish the unit installation into the rack as

seen in Figure 2.2.1b.

It is recommended that you remove all

drives from Jupiter before installing

into or removing from a rack.

AVOID INJURY!

- Never lift heavy equipment by yourself

- Use proper lifting techniques

Review precautionary measures from begining of Section 2.2 before proceding.

Keep unit level

while installing

Security Latch

Slide rack into rails

Figure 2.2.1a

Rack Securing Screws

Figure 2.2.1b

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

2.2.2 Unit Removal

1. Before removing the Jupiter Kore from your

rack, it is recommended that you remove

all drives to make it easier to remove Jupiter

from the rack and to reduce the risk of

personal injury and/or equipment damage.

If necessary, make sure to note the drive

locations so they can be reinserted into the

same locations later.

2. Make sure all cables including data and power

are disconnected from the Jupiter unit.

3. Remove the four rack securing screws from

the front of the Jupiter unit as shown in Figure

2.2.2a.

4. Using the handles, pull the rack toward you

until it is stopped by the safety latches.

5. It is recommended to have a second person

assist the removal at this point. Press the

security latches while simultaneously sliding

the unit out just past the security latch as

illustrated in Figure 2.2.2b.

6. Make sure both people removing the unit

have a ﬁrm grip on the rack front and base

and are prepared to support the full width of

the unit. Continue slowly pulling the rack out

until it is free from the rails.

Review precautionary measures from beginning of Section 2.2 before proceeding.

Rack Securing Screws

Figure 2.2.2a

Keep unit level

while removing

Push security

latch to release

Slide out of rails

Figure 2.2.2b

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

2.3 DRIVE INSTALLATION & REMOVAL

The Jupiter Kore solution comes with drives already installed into the individual trays to provide quicker setup

time. Use the following instructions to install and remove drives from the Jupiter drive bays.

2.3.1 Drive Installation

1. If not already done, release the drive tray

handle by pushing the square eject button.

2. Insert the drive into the desired bay of the

Jupiter unit making sure the drive rests on the

side guide rails within the bay.

3. Push the drive in using the front frame of the

tray or the release button as seen in Figure

2.3.1a until it is seated into the backplane

connector. DO NOT push the drive in using

the handle.

4. Once the drive is seated into the backplane,

push the handle in until it latches to secure

the drive into the drive bay as shown in Figure

2.3.1b.

2.3.2 Drive Removal

1. Release the handle on the drive tray by

pushing the square eject button as seen in

Figure 2.3.1c.

2. Use the handle to pull the drive out of the

drive bay as shown in Figure 2.3.1d.

Figure 2.3.1b

Figure 2.3.1a

Push here

DO NOT

Push here

Figure 2.3.1c

Push here

Figure 2.3.1d

Pull here

OWC DIGITAL - JUPITER KORE

SYSTEM SETUP

2.4 CONNECTIONS

2.4.1 Data Connections

The Jupiter Kore has two external mini-SAS (SFF-8088) data connections. Each connection carries four SAS 6Gb/s

data channels through it. Either connection can function as a host link or an expansion link, though one must

always be a host link.

2.4.2 Power Connections

The Jupiter Kore has two externaly mounted redundant and hot-swappable power supply unit (PSU) modules

for increased reliability and easy serviceability. When both modules are functioning properly, they automatically

balance the load of the entire Jupiter unit.

2.4.3 Service Connection

The Jupiter Kore has an RS-232 serial port for service. This port is generally not used.

OWC DIGITAL - JUPITER KORE SYSTEM MAINTENANCE

SYSTEM MAINTENANCE

3.1 REPLACING COMPONENTS

3.1.1 Power Supply Unit (PSU) Modules

The Jupiter Kore storage system comes with a hot swappable 1+1 redundent power supply, meaning the Jupiter

unit can tolerate one PSU module failing and can be serviced while powered on. When both PSU modules are

healthy the power load is automatically balanced between them. In the event of a PSU module failure, an alarm

will sound and the fan system status light on the front of the Jupiter unit will be red. To replace the problematic

PSU module:

1. Identify the failed PSU module by seeing

which module does not have its LED lit.

2. Loosen securing screw, using a screwdriver if

necessary.

3. After loosening the screws, pull the PSU

module out using the black handle. If it does

not slide out, try loosening the securing screw

more and pulling again.

4. After removing the failed PSU module, insert

the new module making sure it is fully seated

inside the PSU.

5. Hand-tighten the securing screw. A ﬂathead

screwdriver can be used but it is not

necessary. If using a screwdriver, do not over

tighten the screw as it may be necessary to

loosen using ﬁngertips only.

6. After securing the new PSU module in place,

plug in the power cord and turn the unit on if

it is not already.

3.1.2 Fans

The Jupiter Kore storage system has hot swappable fan modules. In the event of a fan failure the fan system status

light on the front of the Jupiter will be red. To replace a problematic fan module:

1. Identify the failed fan by feeling and looking at

each fan module. Often the fan module will

not be spinning at all or as fast as the other

healthy one.

2. Using ﬁngers or a Phillips screwdriver, loosen

the thumbscrew on the failed fan module as

pointed to in Figure 3.1.2a.

Figure 3.1.1a

Securing

screw

Securing

screw

Removal

handle

Figure 3.1.2a

Thumbscrew

OWC DIGITAL - JUPITER KORE SYSTEM MAINTENANCE

3. Remove the fan module by pulling straight

out using the removal handle.

4. Once removed, use a Phillips screwdriver to

remove the four screws securing the fan to

the fan carrier as seen in Figure 3.1.2b.

5. Once the four screws have been removed,

disconnect the fan power connector.

6. Place the new fan into the fan carrier making

sure the side of the fan with the wires rests

against the bottom of the carrier and plug

in the fan connector wire into the connector

board as shown in Figure 3.1.2c.

7. Using the four Phillips screws removed in step

4, secure the fan to the fan carrier.

8. Install the assembled fan unit into the Jupiter

storage unit and tighten the thumb screw

securing it in place.

9. Turn on the Jupiter unit if needed and verify

the fan is functioning correctly by feeling

for airﬂow or visually inspecting the fan for

spinning blades.

Figure 3.1.2b

Figure 3.1.2c

OWC DIGITAL - JUPITER KORE SYSTEM MAINTENANCE

3.1.3 Drives

The Jupiter Kore storage system has hot swappable drive trays that can be easily removed and inserted. In the

event of a drive problem, it will be necessary to replace a drive. Use the following instructions for replacing a drive:

1. Remove the problematic drive from the

Jupiter unit as discussed in the 2.3.2 Drive

Removal section.

2. Using a Phillips screwdriver, remove the four

side screws holding the drive in the tray as

shown in Figure 3.1.3a.

3. Take note of the drive orientation as seen in

Figure 3.1.3b before you remove it from the

tray to ensure that the new drive is aﬃxed to

the tray in the same fashion.

4. Once the new drive is positioned in the tray,

secure it using the same four screws.

5. Insert the drive into the Jupiter unit as

discussed in the 2.3.1 Drive Installation

section.

Figure 3.1.3a

OWC DIGITAL - JUPITER KORE SYSTEM MAINTENANCE

3.1.4 System Controller Board

The Jupiter Kore storage system has an easily replaceable system controller "SAS expander" board. In the rare

occurence the board would need to be replaced, use the following as a guide for replacing the problematic board

with a new one:

1. Disconnect the external power and data

connections from the Jupiter storage unit.

2. If necessary, for access into the Jupiter unit,

remove the unit from the rack according to

the 2.2.2 Unit Removal section.

3. Remove the top cover by loosening the

thumbscrew on the back of the unit as

pointed to in Figure 3.1.4a.

4. Disconnect the following from the expander

board using Figure 3.1.4b and Figure 3.1.4c

as guides:

- Two red mini-SAS SFF-8087 cables

- Rear right fan cable

- Rear left fan cable

- 16-pin header wires

- 4-pin power

5. Remove the four screws securing the

expander board to the enclosure and remove

the board. The four screws removed will be

used for the new board.

Figure 3.1.4a

Thumbscrew

Figure 3.1.4b

Mini-SAS

SFF-8087

(Drives 1-4)

Mini-SAS

SFF-8087

(Drives 5-8)

Mini-SAS

SFF-8087

(Not Used)

Mini-SAS

SFF-8087

(Not Used)

Mini-SAS

SFF-8087

(Not Used)

Mini-SAS

SFF-8087

(Not Used)

SFF-8087

(Not Used)

Onboard Cooling Fan

4-pin Power

Fan Connections

SFF-8088 Connections

Rear

Left

Rear

Right

board

On-

16-pin Header

Header

5-pin

(Not Used)

Figure 3.1.4c

OWC DIGITAL - JUPITER KORE SYSTEM MAINTENANCE

6. Place the new expander board inside the unit,

making sure to line up the screw holes with

the enclosure screw posts.

7. Secure the expander board to the enclosure

using the four screws previously removed.

8. Using Figure 3.1.4c as a guide, connect the

- mini-SAS (SFF-8087) cable for the top

backplane (drives 1-4)

- mini-SAS (SFF-8087) cable for the bottom

backplane (drives 5-8)

- Rear left fan cable

- Rear right fan cable

- 4-pin power

9. For the 16-pin head connection, use Figure

3.1.4d as a guide for the proper positioning.

10. Once all connections have been made,

aﬃx the top cover and secure with the

thumbscrew.

11. Install the Jupiter storage unit into your

desired location.

12. Upon powering on the Jupiter storage unit,

check to make sure the following items are

functioning properly:

- Drives

- Front panel LED board

- Enclosure fans

13. If anything is not functioning properly, review

the previous steps. Contact technical support

if problems are still present.

3.2 REGULAR MAINTENANCE

The Jupiter Kore storage system

You should periodically:

- Check all system fans for functionality (PSU fans, chassis fans, expander board fan)

- Clear any fans of dust/debris

- Clear inside unit of dust/debris

- Clear drive trays of dust/debris

Figure 3.1.4d

Blue

Red Green

Yellow

Brown

Black

White

Grey

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OWC Jupiter Kore User guide

OWC Jupiter Kore User guide

OWC Jupiter Kore User guide

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