Supermicro CSE-826BE2C-R609JBOD - Disk array

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Product Type Disk Array / JBOD Storage Enclosure
Brand Supermicro
Model CSE-826BE2C-R609JBOD
Form Factor 2U Rackmount
Drive Bays 12 x 3.5" Hot-Swap
Supported Drive Types SAS3 / SATA3
Backplane BPN-SAS3-826EL2 Dual Expander
Power Supply 2 x 650W Redundant Platinum Level (80+ Platinum)
Cooling Fans 3 x 80mm Heavy-Duty Hot-Swap + 2 x 80mm Exhaust
Control Board CSE-PTJBOD-CB3 with IPMI (BMC)
Remote Management Dedicated BMC LAN, IPMI 2.0
Host Interface 4 x Mini-SAS HD (SFF-8644) In/Out per expander
Expansion / Cascading Supports daisy-chaining via In/Out ports
Hot-Swap Drives, Fans, Power Supplies (all hot-swap)
LED Indicators Power, NIC, Power Fail, Information (overheat/fan fault), Drive activity/fault, Power supply status
Mounting Rails Quick-release, tool-less slide rails (26.5"-36.4" rack depth)
Safety Certifications UL/CSA 62368-1, FCC Class A, CE, etc.
Dimensions (Approximate) 2U standard: 3.5" x 17.2" x 25.5" (HxWxD)
Weight (Approximate) ~30 lbs (without drives)

Frequently Asked Questions - CSE-826BE2C-R609JBOD Supermicro

How do I connect the SC826 JBOD to a server?
Use external Mini-SAS HD cables (SFF-8644) from the host bus adapter (HBA) on the server to the primary 'In' ports on the rear of the JBOD. For the E2C model, you can use dual HBAs for redundancy.
What is the default IP address for the BMC?
The default IP is 192.168.1.99 when set to static mode. To reset to static, press and hold the UID/IPMI reset button on the front panel for 6-8 seconds. Default username is ADMIN and password is on a sticker on the chassis.
Can I hot-swap hard drives?
Yes, the SC826 JBOD supports hot-swap of 3.5" SAS/SATA drives. Ensure the drive is properly inserted into the carrier and the handle is closed. The system must have RAID support for hot-swap functionality.
How many drives does the CSE-826BE2C-R609JBOD support?
It supports twelve 3.5" SAS or SATA hard drives in hot-swap drive carriers.
How do I power up the JBOD for the first time?
Plug in the power cords. Wait for the blue Information LED to start blinking. Then press the power button once. The control board will initiate power-up after about 3 seconds.
What does the blue LED on the drive carrier indicate?
A steady blue LED indicates a SAS drive is installed. A blinking blue LED means the drive is being accessed. Off indicates a SATA drive.
How do I cascade multiple JBOD enclosures?
Connect cables from the 'In/Out' ports (bottom connectors) of the first JBOD to the 'In' ports of the next JBOD. Use Mini-SAS HD cables. The E2C model supports dual-path cascading for redundancy.
What is the maximum operating temperature?
The backplane issues an overheat warning at 45°C and critical overheating at 49°C. Ensure adequate airflow and that all chassis covers are installed.
Can I use SATA drives in this enclosure?
Yes, the backplane supports both SAS and SATA 3.5" drives. SATA drives will show a steady blue LED off on the drive carrier.
How do I reset the BMC to factory defaults?
Press and hold the UID/IPMI reset button on the front control panel for 12 seconds. The blue UID LED will remain on solid to confirm the reset.

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USER MANUAL CSE-826BE2C-R609JBOD Supermicro

natural_image Front view of a rack-mounted server rack with multiple drive bays and indicator lights (no visible text or labels)

CSE-826BE1C-R609JBOD CSE-826BE2C-R609JBOD

USER'S MANUAL

Revision 1.0a

The information in this User's Manual has been carefully reviewed and is believed to be accurate. The vendor assumes no responsibility for any inaccuracies that may be contained in this document, makes no commitment to update or to keep current the information in this manual, or to notify any person or organization of the updates. Please Note: For the most up-to-date version of this manual, please see our web site at www.supermicro.com.

Super Micro Computer, Inc. ("Supermicro") reserves the right to make changes to the product described in this manual at any time and without notice. This product, including software and documentation, is the property of Supermicro and/or its licensors, and is supplied only under a license. Any use or reproduction of this product is not allowed, except as expressly permitted by the terms of said license.

IN NO EVENT WILL SUPERMICRO BE LIABLE FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, SPECULATIVE OR CONSEQUENTIAL DAMAGES ARISING FROM THE USE OR INABILITY TO USE THIS PRODUCT OR DOCUMENTATION, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. IN PARTICULAR, SUPERMICRO SHALL NOT HAVE LIABILITY FOR ANY HARDWARE, SOFTWARE, OR DATA STORED OR USED WITH THE PRODUCT, INCLUDING THE COSTS OF REPAIRING, REPLACING, INTEGRATING, INSTALLING OR RECOVERING SUCH HARDWARE, SOFTWARE, OR DATA.

Any disputes arising between manufacturer and customer shall be governed by the laws of Santa Clara County in the State of California, USA. The State of California, County of Santa Clara shall be the exclusive venue for the resolution of any such disputes. Super Micro's total liability for all claims will not exceed the price paid for the hardware product.

FCC Statement: This equipment has been tested and found to comply with the limits for a Class A or Class B digital device pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in industrial environment for Class A device or in residential environment for Class B device. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the manufacturer's instruction manual, may cause harmful interference with radio communications. Operation of this equipment in a residential area is likely to cause harmful interference, in which case you will be required to correct the interference at your own expense.

California Best Management Practices Regulations for Perchlorate Materials: This Perchlorate warning applies only to products containing CR (Manganese Dioxide) Lithium coin cells. "Perchlorate Material-special handling may apply. See www.dtsc.ca.gov/hazardouswaste/perchlorate".

Supermicro CSE-826BE2C-R609JBOD - 1

WARNING: This product can expose you to chemicals including lead, known to the State of California to cause cancer and birth defects or other reproductive harm. For more information, go to www.P65Warnings.ca.gov.

Manual Revision 1.0a

Release Date: May 25, 2021

mk

Unless you request and receive written permission from Super Micro Computer, Inc., you may not copy any part of this document.

Information in this document is subject to change without notice. Other products and companies referred to herein are trademarks or registered trademarks of their respective companies or mark holders.

Copyright © 2021 by Super Micro Computer, Inc.

All rights reserved.

Printed in the United States of America

Preface

About this Manual

This manual is written for professional system integrators and PC technicians. It provides information for the installation and use of the chassis. Installation and maintenance should be performed by experienced technicians only.

This document lists compatible parts available when this document was published. Refer to the Supermicro web site for updates on supported parts and configurations

This manual may be periodically updated without notice. Please check the Supermicro Web site for possible updates.

Warnings

Special attention should be given to the following symbols used in this manual.

Supermicro CSE-826BE2C-R609JBOD - Warnings - 1

Warning! Indicates important information given to prevent equipment/property damage or personal injury.

Supermicro CSE-826BE2C-R609JBOD - Warnings - 2

Warning! Indicates high voltage may be encountered when performing a procedure.

Contents

Chapter 1 Introduction....1-1

1-1 Overview 1-1
1-2 Shipping List.... 1-1
1-3 Components.... 1-2

Drives 1-2
Power Supply 1-2
Cooling 1-2
Control Board 1-2
Mounting Rails 1-2

1-4 Where to get Replacement Components.... 1-2
1-5 Returning Merchandise for Service.... 1-2
1-6 Contacting Supermicro 1-4

Chapter 2 Standardized Warning Statements for AC Systems......2-1

About Standardized Warning Statements.... 2-1
Warning Definition 2-1
Installation Instructions....2-4
Circuit Breaker 2-5
Power Disconnection Warning 2-6
Equipment Installation 2-8
Restricted Area....2-9
Battery Handling....2-10
Redundant Power Supplies 2-12
Backplane Voltage 2-13
Comply with Local and National Electrical Codes 2-14
Product Disposal 2-15
Hot Swap Fan Warning....2-16
Power Cable and AC Adapter 2-18

Chapter 3 System Interface....3-1

3-1 Overview 3-1
3-2 Control Panel Buttons 3-2

Power 3-2

UID and IPMI Reset Button 3-2

3-3 Control Panel LEDs 3-2

Power 3-2
NIC 3-2
Power Fail 3-3

Information LED 3-3

Overheating....3-3

3-4 Drive Carrier LEDs....3-4

3-5 Power Supply LEDs....3-4

Chapter 4 Chassis Setup and Maintenance .... 4-1

4-1 Overview 4-1

4-2 Power Up/Power Down Sequences....4-2

Power Up 4-2

First Use or Power Cord Plug-In....4-2

After Normal Shutdown by IPMI or Power Button 4-2

After a Power Loss....4-2

Power Down....4-2

Removing Power from the System 4-3

4-3 Cable Connections....4-3

IPMI 4-3

SAS Cables 4-4

Cascading Storage....4-5

4-4 Removing the Chassis Cover 4-7

4-5 Installing Hard Drives....4-8

Removing a Hard Drive Carrier 4-8

Installing Hard Drives 4-9

4-6 System Fans 4-11

4-7 Power Supply 4-13

Power Distributor....4-14

4-8 Control Board 4-15

4-9 Backplane....4-16

Chapter 5 Chassis Installation

5-1 Unpacking the System....5-1

5-2 Preparing for Setup....5-1

Choosing a Setup Location....5-1

5-3 Warnings and Precautions....5-2

Rack Precautions 5-2

Server Precautions....5-2

Rack Mounting Considerations 5-3

Ambient Operating Temperature 5-3

Reduced Airflow 5-3

Mechanical Loading 5-3

Circuit Overloading....5-3

Reliable Ground 5-3

5-4 Installing the System into a Rack 5-4

Identifying the Sections of the Rack Rails 5-4

Releasing the Inner Rail 5-5

Installing the Inner Rails on the Chassis 5-6

Installing the Outer Rails onto the Rack....5-7

Sliding the Chassis onto the Rack Rails....5-8

Chapter 6 CSE-PTJBOD-CB3 Control Board....6-1

6-1 Overview 6-1

6-2 Safety Guidelines....6-1

ESD Safety Guidelines 6-1

General Safety Guidelines....6-2

6-3 Components, Connectors, Jumpers and LEDs 6-2

Component and Connector Definitions....6-3

Jumpers and LED Indicators....6-4

6-4 I²C Cabling to the Backplane 6-6

6-5 JBOD Power Up/Power Down Sequences 6-7

Power Up 6-7

Power Down....6-7

6-6 BMC 6-8

BMC ADMIN User Password 6-8

IP Address....6-8

Appendix A SC826 JBOD Power Supply Specifications...... A-1

Appendix B BPN-SAS3-826EL Backplane Specifications...... B-1

Appendix C Compliance...... C-1

Chapter 1

Introduction

1-1 Overview

The SC826 JBOD storage enclosure is designed to scale your Supermicro server storage expansion capacity. In a 2U form factor, it offers twelve hot-swap 3.5" SAS/SATA hard drive bays, without compromising superior cooling capabilities. The CSE-826BE2C-R609JBOD model offers two expanders for high availability.

Just install hard drives and use an external SAS cable and connect to a host bus adapter (HBA) on the head node server. The storage capacity can be expanded instantly and reduce the initial investment.

The chassis is equipped with a redundant, efficient power supply for outstanding power savings, with specially designed optimized cooling. Quick release, tool-less slide rails are available for quick installation.

Note: A complete list of safety warnings is provided on the Supermicro web site at www.supermicro.com.

SC826 JBOD Chassis Models
Model HDD Power Supply
CSE-826BE1C-R609JBOD 12x SAS/SATA650W Redundant Platinum level
CSE-826BE2C-R609JBOD 12x SAS650W Redundant Platinum level

The following safety models associated with the SC826 JBOD have been certified as compliant with UL or CSA: 826JBOD-6.

1-2 Shipping List

Refer to the Supermicro website for the latest shipping lists and part numbers for your particular chassis model: https://www.supermicro.com.

1-3 Components

Drives

The chassis supports twelve hot-swap 3.5" SAS or SATA hard disk drives in the front. The drives are supported by a backplane.

Power Supply

The chassis features two redundant digital power supplies, each 650 watts with a Platinum 80-Plus efficiency certification level.

Cooling

The chassis includes three 80 mm heavy-duty, hot-swap fans and two 80 mm exhaust fans. System fans are powered and controlled by IPMI using 4-pin connectors.

Control Board

The JBOD control board allows the user to remotely control and monitor the chassis resources using IPMI, such as powering on or off, controlling fan speeds and reading temperature data from the backplane.

Mounting Rails

Rack mount rails allow you to mount the chassis in a rack. The rails feature snap-in installation and quick release, and support modern square hole racks. Round hole rack are supported with a conversion kit.

1-4 Where to get Replacement Components

If you need replacement parts for your system, to ensure the highest level of professional service and technical support, purchase exclusively from our Supermicro Authorized Distributors/System Integrators/Resellers. A list can be found at: http://www.supermicro.com. Click the "Where to Buy" link.

1-5 Returning Merchandise for Service

A receipt or copy of your invoice marked with the date of purchase is required before any warranty service will be rendered. You can obtain service by calling your vendor for a Returned Merchandise Authorization (RMA) number. When returning to the manufacturer, the RMA number should be prominently displayed on the outside of

the shipping carton, and mailed prepaid or hand-carried. Shipping and handling charges will be applied for all orders that must be mailed when service is complete.

For faster service, RMA authorizations may be requested online (http://www.supermicro.com/support/rma/).

Whenever possible, repack the chassis in the original Supermicro carton, using the original packaging material. If these are no longer available, be sure to pack the chassis securely, using packaging material to surround the chassis so that it does not shift within the carton and become damaged during shipping.

This warranty only covers normal consumer use and does not cover damages incurred in shipping or from failure due to the alteration, misuse, abuse or improper maintenance of products.

During the warranty period, contact your distributor first for any product problems.

1-6 Contacting Supermicro

Headquarters

Address: Super Micro Computer, Inc.

980 Rock Ave.

San Jose, CA 95131 U.S.A.

Tel: +1 (408) 503-8000

Fax: +1 (408) 503-8008

Email: marketing@supermicro.com (General Information)

support@supermicro.com (Technical Support)

Web Site: www.supermicro.com

Europe

Address: Super Micro Computer B.V.

's-Hertogenbosch, The Netherlands

Tel: +31 (0) 73-6400390

Fax: +31 (0) 73-6416525

Email: sales@supermicro.nl (General Information)

support@supermicro.nl (Technical Support)

rma@supermicro.nl (Customer Support)

Web Site: www.supermicro.nl

Asia-Pacific

Address: Super Micro Computer, Inc.

3F, No. 150, Jian 1st Rd.

Zhonghe Dist., New Taipei City 235

Taiwan (R.O.C)

Tel: +886-(2) 8226-3990

Fax: +886-(2) 8226-3992

Email: support@supermicro.com.tw

Web Site: www.supermicro.com.tw

Chapter 2

Standardized Warning Statements for AC Systems

About Standardized Warning Statements

The following statements are industry standard warnings, provided to warn the user of situations which have the potential for bodily injury. Should you have questions or experience difficulty, contact Supermicro's Technical Support department for assistance. Only certified technicians should attempt to install or configure components.

Read this appendix in its entirety before installing or configuring components in the Supermicro chassis.

These warnings may also be found on our web site at http://www.supermicro.com/about/policies/safety_information.cfm.

Warning Definition

Supermicro CSE-826BE2C-R609JBOD - Warning Definition - 1

Warning!

This warning symbol means danger. You are in a situation that could cause bodily injury. Before you work on any equipment, be aware of the hazards involved with electrical circuitry and be familiar with standard practices for preventing accidents.

警告の定義

この警告サインは危険を意味します。

Installation Instructions

Supermicro CSE-826BE2C-R609JBOD - Installation Instructions - 1

Warning!

Read the installation instructions before connecting the system to the power source.

設置手順書

This product relies on the building's installation for short-circuit (overcurrent) protection. Ensure that the protective device is rated not greater than: 250 V, 20 A.

サーキット・ブレーカー

Power Disconnection Warning

Supermicro CSE-826BE2C-R609JBOD - Power Disconnection Warning - 1

Warning!

CAUTION: This unit has redundant power sources. Please disconnect all the power cords before servicing.

The system must be disconnected from all sources of power and the power cord removed from the power supply module(s) before accessing the chassis interior to install or remove system components.

電源切断の警告

Equipment Installation

Supermicro CSE-826BE2C-R609JBOD - Equipment Installation - 1

Warning!

Only trained and qualified personnel should be allowed to install, replace, or service this equipment.

機器の設置

This unit is intended for installation in restricted access areas. A restricted access area can be accessed only through the use of a special tool, lock and key, or other means of security. (This warning does not apply to workstations).

アクセス制限区域

There is the danger of explosion if the battery is replaced incorrectly. Replace the battery only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries according to the manufacturer's instructions

電池の取り扱い

Redundant Power Supplies

Supermicro CSE-826BE2C-R609JBOD - Redundant Power Supplies - 1

Warning!

This unit might have more than one power supply connection. All connections must be removed to de-energize the unit.

CAUTION: This unit has redundant power sources. Please disconnect all the power cords before servicing.

冗長電源裝置

Hazardous voltage or energy is present on the backplane when the system is operating. Use caution when servicing.

バックプレーンの電圧

Comply with Local and National Electrical Codes

Supermicro CSE-826BE2C-R609JBOD - Comply with Local and National Electrical Codes - 1

Warning!

Installation of the equipment must comply with local and national electrical codes.

地方および国の電気規格に準拠

Ultimate disposal of this product should be handled according to all national laws and regulations.

製品の廃棄

Hazardous moving parts. Keep away from moving fan blades. The fans might still be turning when you remove the fan assembly from the chassis. Keep fingers, screwdrivers, and other objects away from the openings in the fan assembly's housing.

ファン・ホットスワップの警告

Power Cable and AC Adapter

Supermicro CSE-826BE2C-R609JBOD - Power Cable and AC Adapter - 1

Warning!

When installing the product, use the provided or designated connection cables, power cables and AC adaptors. Using any other cables and adaptors could cause a malfunction or a fire. Electrical Appliance and Material Safety Law prohibits the use of UL or CSA-certified cables (that have UL/CSA shown on the code) for any other electrical devices than products designated by Supermicro only.

電源コードとACアダプター

The chassis includes a control panel on the front that houses power buttons and status monitoring lights. The externally accessible hard drives display status lights. The power supply displays status lights visible from the back of the chassis.

UID OR IPMI Factory Default (Hold) (10 Sec) 1 i 10 15 100 150 1000 1500 10000 15000 10000 15000 10000 15000 10000 15000 10000 15000 10000 15000 10000 15000 10000 15000 10000 15000 9999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999999 INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL INTL

Figure 3-1. Front Control Panel

3-2 Control Panel Buttons

The chassis includes two push-buttons that control the system.

Supermicro CSE-826BE2C-R609JBOD - 3-2 Control Panel Buttons - 1

Power

The main power switch applies or removes primary power from the power supply to the server but maintains standby power. To perform most maintenance tasks, unplug the system to remove all power..

Supermicro CSE-826BE2C-R609JBOD - Power - 1

UID and IPMI Reset Button

  • Press briefly to toggle the UID alert light. The blue LED will blink.
  • Press and hold 6 seconds to set the BMC IP address to 192.168.1.99. The blue LED will blink.
  • Press and hold 12 seconds to restore factory defaults. The blue LED will remain on.

3-3 Control Panel LEDs

There are four LEDs that provide status information about the system.

Supermicro CSE-826BE2C-R609JBOD - 3-3 Control Panel LEDs - 1

Power

Indicates power is being supplied to the system power supply units. This LED is illuminated when the system is operating normally.

Supermicro CSE-826BE2C-R609JBOD - Power - 1

NIC

Indicates network activity when flashing.

Supermicro CSE-826BE2C-R609JBOD - NIC - 1

Power Fail

Indicates a power supply module has failed.

Supermicro CSE-826BE2C-R609JBOD - Power Fail - 1

Information LED

Alerts operator to several states, as noted in the table below.

Information LED
Status Description
Continuously on and redAn overheat condition has occurred. (This may be caused by cable congestion.)
Blinking red (1Hz) Fan failurecheck for an inoperative fan.
Blinking red (0.25Hz) Powerfailure, check for a non-operational power supply.
Solid blueLocal UID has been activated. Use this function to locate the server in a rack mount environment.
Blinking blueRemote UID is on. Use this function to identify the server from a remote location.

Overheating

A sensor on the backplane will issue a warning at 45^ C. Overheating is critical at 49^ C. There are several possible responses if the system overheats.

If the server overheats:

  1. Use the LEDs to determine the nature of the overheating condition.
  2. Confirm that the chassis covers are installed properly.
  3. Make sure all fans are present and operating normally.
  4. Check the routing of the cables and

3-4 Drive Carrier LEDs

The SC826 JBOD chassis uses SAS or SATA drives. Each drive carrier has two LED indicators on the front, one blue and red. The LEDs function as follows:

Blue Drive Carrier LED Indicator
Color Status Description
Blue Steady on Indicates a SAS drive
Blue Off Indicates a SATA drive
Blue Blinking Drive is actively being accessed
Red Drive Carrier LED Indicator
Color StatusDescription
Red Steady onDrive failure
Red BlinkingRAID activity

When the red LED is blinking, it indicates that the system is either building, initializing or rebuilding RAID.

3-5 Power Supply LEDs

On the rear of the power supply module, an LED displays the status.

  • Solid Green: When illuminated, indicates that the power supply is on.
  • Solid Amber: When illuminated, indicates the power supply is plugged in and turned off, or the system is off but in an abnormal state.
  • Blinking Amber: When blinking, this system power supply temperature has reached 63C. The system will automatically power-down when the power supply temperature reaches 70C and restart when the power supply temperature goes below 60C.

Chapter 4

Chassis Setup and Maintenance

4-1 Overview

This chapter covers the steps required to install components and perform maintenance on the chassis. The only tool required is a Phillips screwdriver.

Review the warnings and precautions listed in the manual before setting up or servicing this chassis. These include information in Chapter 2: Warnings for AC Systems, and the precautions listed in the setup instructions.

Control Panel Figure 4.4 Chronic Front

Figure 4-1. Chassis Front

Figure 4-2. Chassis Rear SAS BMC LAN

Figure 4-2. Chassis Rear (E2C model shown)

4-2 Power Up/Power Down Sequences

There are several procedures to turn on or off the system with the CB3 JBOD control board.

Power Up

First Use or Power Cord Plug-In

  1. Plug the power cords into the rear of the power supplies.
  2. Wait until blue Information LED starts to blink.

  3. Press the power button once. The JBOD control board initiates the power up sequence in three seconds.

After Normal Shutdown by IPMI or Power Button

Press the power button once. The JBOD control board will initiate the power up sequence in three seconds.

After a Power Loss

The system will power up automatically approximately 45 seconds after the power returns.

Power Down

  1. Hold down the power button. The blue Information LED will begin blinking. Continue to hold the power button.
  2. Release power button after blue LED stops blinking and goes dark.
  3. The shutdown sequence will begin and shut down the system within ten seconds

Removing Power from the System

Before performing most setup or maintenance tasks, use the following procedure to ensure that power has been removed from the system.

  1. After the system has completely shut-down, carefully grasp the head of the power cord and gently pull it out of the back of the power supply. If your system has dual power supplies, remove the cords from both power supplies.

  2. Disconnect the cord from the power strip or wall outlet..

4-3 Cable Connections

BMC LAN Connection

The Control Board offers intelligent management with the baseboard management controller (BMC) providing hardware health monitoring and remote power control. To enable, connect to the storage enclosure using the dedicated BMC LAN connector (Figure 4-2).

For more information on the BMC, see Section 6-6 in this manual.

SAS Cables

This drawing shows connectors for SAS cabling. For primary and secondary, the top two connectors are marked In, and the bottom two connectors are marked In/Out.

Connect two mini-SAS HD cables (SFF-8644) from the head server node host bus adapter (HBA) card to the top two Primary receptacles marked In. If using the E2C model (SC826BE2C-R741JBOD) for redundancy, connect two more mini-SAS HD cables to the top two Secondary receptables also marked In. Cables are described in Appendix B.

To cascade out, connect cables from the two receptacles marked In/Out to the next JBOD storage enclosure. (see Figure 4-4 and 4-5)

Secondary (E2C only) Primary Labeled "In" on Chassis Labeled "In" on Chassis Labeled "In/Out" on Chassis Labeled "In/Out" on Chassis IPMI Figure 4.3 SAS and IPMI Cable

Figure 4-3. SAS and IPMI Cables (E2C model shown)

Cascading Storage

The following diagram shows a server with a single host bus adapter (HBA) and requires only the primary expander on the backplane. The SC826 JBOD storage enclosure model E1C can accommodate this configuration.

Server with Single Host Bus Adapter (HBA) HBA External Mini-SAS HD Cable SC826 JBOD SC826 JBOD

Figure 4-4. Sample Cascading Storage, Single HBA

The following diagram shows a server with dual HBAs and requires the primary and secondary expanders on the backplane. The SC826 JBOD storage enclosure model E2C accommodates this configuration.

Server with Dual Host Bus Adapters (HBAs) External Mini-SAS HD Cable SC826 JBOD SC826 JBOD

Figure 4-5. Sample Cascading Storage, Dual HBAs

4-4 Removing the Chassis Cover

Diagram of a server rack with numbered components and directional arrows indicating assembly or data flow.

Figure 4-3. Removing the Chassis Cover

Removing the Chassis Cover

  1. Power down the server as described in section 4-2, lay the chassis on a flat stable surface and remove the chassis cover.
  2. Remove the two screws from the sides of the chassis cover.
  3. Press the release tabs to remove the cover from the locked position. Press both tabs at the same time.
  4. Once the top cover is released from the locked position, slide the cover toward the rear of the chassis.
  5. Lift the cover off the chassis.

Caution: Except for short periods of time, do not operate the system without the cover in place. The chassis cover must be in place to allow proper airflow and prevent overheating.

4-5 Installing Hard Drives

The SC826 JBOD chassis supports twelve hot-swappable 3.5" hard drives, which may be removed without powering-down the system. The drives are mounted in drive carriers to simplify their installation and removal from the chassis. These carriers also help promote proper airflow for the drive bays.

Removing a Hard Drive Carrier
Diagram showing server rack setup with two labeled components and connection arrows

Figure 4-4. Removing a Hard Drive Carrier

Removing Hard Drive Carriers

  1. Press the release button on the drive tray. This extends the drive bay handle.

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

Installing Hard Drives

Caution: Except for short periods of time (swapping hard drives), do not operate the server with the hard drive bays empty.

Note: Your operating system must have RAID support to enable the hot-swap capability of the drives.

Dummy Drive Drive Carrier

Figure 4-5. Dummy Drive in a Drive Carrier

Technical diagram of a computer rack with labeled components and directional arrows indicating assembly or movement.

Figure 4-6. Removing the Dummy Drive from the Carrier

SAS/SATA Hard Drive Hard Drive Carrier Use a hard, stable surface when installing the hard drive

Figure 4-7. Installing a Drive into the Carrier

Installing a Hard Disk Drive

  1. Remove the two screws connecting the dummy drive to the carrier.
  2. Remove the dummy dirve from the carrier.
  3. Place the hard drive carrier on a flat, stable surface such as a desk, table, or work bench.
  4. Slide the hard drive into the carrier with the printed circuit board side facing down.
  5. Carefully align the mounting holes in the hard drive and the carrier. Make sure the bottom of the hard drive and bottom of the hard drive carrier are flush.
  6. Secure the hard drive using all six screws.
  7. Replace the drive carrier into the chassis. Make sure to close the drive tray using the drive carrier handle.

4-6 System Fans

In most cases, the chassis power supply and fans are pre-installed. Procedures to replace them follow.

Three heavy-duty fans provide cooling for the chassis.

Release Tab

Figure 4-8. System Fan

Replacing a System Fan

  1. If necessary, open the chassis while the power is running to determine which fan requires changing. Never run the server for an extended period of time with the chassis open.
  2. Power down the server as described in section 4-2, lay the chassis on a flat, stable surface and remove the chassis cover.
  3. Remove the failed fan's power cord from the motherboard.
  4. Press the fan release tab to lift the failed fan from the fan tray and pull it completely from the chassis.
  5. Place the new fan into the vacant space in the fan tray, while making sure the arrows on the top of the fan (indicating air direction) point in the same direction as the arrows on the other fans.
  6. Power up the system and check that the fan is working properly before replacing the chassis cover.

5

Figure 4-9. Placing the System Fan in the Chassis

4-7 Power Supply

The system has two redundant, hot-swap power supply modules. They automatically sense the input voltage between 100v to 240v, and operate at that voltage. An amber light on the power supply is illuminated when the power is switched off. An green light indicates that the power supply is operating.

Replacement units can be ordered directly from Supermicro.

Release Tab

Figure 4-10. Removing the Power Supply

Changing the Power Supply

  1. Remove the AC power cord from the back of the power supply module that you want to replace.
  2. Push the release tab on the rear of the power supply.
  3. Pull the module out of the power supply bay using the handle.
  4. Push the new power supply module into the power bay until it clicks.
  5. Plug the AC power cord back into the module and power up the server.

Supermicro CSE-826BE2C-R609JBOD - Changing the Power Supply - 1

natural_image Technical line drawing of an internal computer drive bay with fan and ventilation slots (no text or symbols)

Figure 4-11. Replacing the Power Distributor

Power Distributor

Chassis that are 2U or more in height require a power distributor. The power distributor provides failover and power supply redundancy.

Changing the Power Distributor

  1. Power down the server as described in section 4-1, lay the chassis on a flat, stable surface and remove the chassis cover.
  2. Remove all cable connections to the power supply from the motherboard, backplane, and other components.
  3. Remove both power supplies.
  4. Locate the power distributor between the power supply and the fan row.
  5. Remove the three screws securing the power supply.
  6. Gently pull the power distributor from the chassis, carefully guiding all the cables through the power distributor housing.
  7. Slide the new power distributor module into the power distributor housing. Make that you slide the cables through the bottom of the housing.
  8. Reconnect all the power cables, replace the power supply, and insert the plug into the wall.

4-8 Control Board

The JBOD control board (CSE-PTJBOD-CB3) allows the user to remotely control and monitor the chassis resources using IPMI, such as powering on or off, controlling fan speeds and reading temperature data from the backplane. The location is shown in the figure below.

Supermicro CSE-826BE2C-R609JBOD - 4-8 Control Board - 1

natural_image Technical line drawing of a server rack with internal components and mounting points (no text or labels)

Figure 4-12. Control Board Location

4-9 Backplane

The backplane is located behind the hard drives and in front of the front system fans. In order to change jumper settings on the backplane, it may be necessary to remove the backplane from the chassis.

Removing the Backplane from the Chassis

  1. Power down the system as described in Section 4-2 and open the chassis cover.
  2. Disconnect the cabling to the backplane.
  3. Remove all of the hard drive trays from the front of the chassis.
  4. Remove the four upper screws at the top of the backplane, indicated by the arrows below.

Technical diagram of a server rack with numbered component annotations

Figure 4-13. Removing the Screws at the Top of the Backplane

  1. Loosen the three screws in the spring bar, located on the floor of the chassis, indicated by the arrows below.
  2. Gently ease the backplane up and out of the chassis.

Installing the Backplane into the Chassis

  1. Power down the system as described in Section 4-2 and open the chassis cover.
  2. Ensure that all of the hard drive carriers have been removed from the bays in the front of the chassis and that the spring bar has been loosened as directed in the previous section.
  3. Slide the backplane into the chassis at a slight angle, pushing it up against the side of the chassis.
  4. Ease the backplane forward, against the front of the chassis. This will aid in the alignment of the mounting holes.
  5. Align the mounting holes in the backplane with the holes in the chassis. Replace the four screws at the top of the backplane and the three screws in the floor of the chassis.
  6. Reconnect all cables and return the hard drive trays to their bays in the front of the chassis.

Technical diagram of a server rack with numbered components and directional arrows indicating assembly or movement.

Figure 4-15. Installing the Backplane

Chapter 5

Chassis Installation

This chapter provides instructions for preparing and mounting your chassis in a rack.

5-1 Unpacking the System

You should inspect the box the chassis was shipped in and note if it was damaged in any way. If the chassis itself shows damage, file a damage claim with the carrier who delivered it.

5-2 Preparing for Setup

Decide on a suitable location for the rack unit that will hold your chassis. It should be a clean, dust-free area that is well ventilated. Avoid areas where heat, electrical noise and electromagnetic fields are generated. A nearby grounded power outlet. is required

The box your chassis was shipped in should include two sets of rail assemblies, two rail mounting brackets and the mounting screws to mount the system into the rack. Please read this chapter in its entirety before beginning the installation procedure.

Choosing a Setup Location

  • Leave at least 25 inches clearance in front of the rack to open the front door completely.
  • Leave approximately 30 inches of clearance in the back of the rack to allow for sufficient airflow and access for servicing.
  • It should be a restricted access location, such as a dedicated equipment room or a service closet.

5-3 Warnings and Precautions

Rack Precautions

  • Ensure that the leveling jacks on the bottom of the rack are fully extended to the floor with the full weight of the rack resting on them.
  • In single rack installation, stabilizers should be attached to the rack. In multiple rack installations, the racks should be coupled together.
  • Always make sure the rack is stable before extending a component from the rack.
  • You should extend only one component at a time - extending two or more simultaneously may cause the rack to become unstable.

Server Precautions

  • Review the electrical and general safety precautions in Chapter 4.
  • Determine the placement of each component in the rack before you install the rails.
  • Install the heaviest server components on the bottom of the rack first, and then work up.
  • Use a regulating uninterruptible power supply (UPS) to protect the server from power surges, voltage spikes and to keep your system operating in case of a power failure.
  • Allow the hot plug SAS drives and power supply modules to cool before touching them.
  • Always keep the rack's front door and all panels and components on the servers closed when not servicing to maintain proper cooling.

Rack Mounting Considerations

Ambient Operating Temperature

If installed in a closed or multi-unit rack assembly, the ambient operating temperature of the rack environment may be greater than the ambient temperature of the room. Therefore, consideration should be given to installing the equipment in an environment compatible with the manufacturer's maximum rated ambient temperature (Tmra).

Reduced Airflow

Equipment should be mounted into a rack so that the amount of airflow required for safe operation is not compromised.

Mechanical Loading

Equipment should be mounted into a rack so that a hazardous condition does not arise due to uneven mechanical loading.

Circuit Overloading

Consideration should be given to the connection of the equipment to the power supply circuitry and the effect that any possible overloading of circuits might have on overcurrent protection and power supply wiring. Appropriate consideration of equipment nameplate ratings should be used when addressing this concern.

Reliable Ground

A reliable ground must be maintained at all times. To ensure this, the rack itself should be grounded. Particular attention should be given to power supply connections other than the direct connections to the branch circuit (i.e. the use of power strips, etc.).

Supermicro CSE-826BE2C-R609JBOD - Reliable Ground - 1

Warning! To prevent bodily injury when mounting or servicing this unit in a rack, you must take special precautions to ensure that the system remains stable. The following guidelines are provided to ensure your safety:

  • This unit should be mounted at the bottom of the rack if it is the only unit in the rack.
  • When mounting this unit in a partially filled rack, load the rack from the bottom to the top with the heaviest component at the bottom of the rack.
  • If the rack is provided with stabilizing devices, install the stabilizers before mounting or servicing the unit in the rack.
  • Slide rail mounted equipment is not to be used as a shelf or a work space.

5-4 Installing the System into a Rack

This section provides information on installing the server into a rack unit with the rack rails provided. There are a variety of rack units on the market, so the assembly procedure may differ slightly. Refer to the installation instructions that came with your rack. Note: This rail will fit a rack between 26.5" and 36.4" deep.

Identifying the Sections of the Rack Rails

The chassis package includes two rail assemblies. Each assembly consists of three sections: An inner rail that secures directly to the chassis, an outer rail that secures to the rack, and a middle rail which extends from the outer rail. These assemblies are specifically designed for the left and right side of the chassis.

Rail Assembly (Shown with Rails Retracted) Outer Rail Middle Rail Locking Tab Inner Rail This Side Faces Outward

Figure 5-1. Identifying the Outer Rail, Middle Rail (Left Rail Assembly Shown)

Rail

Releasing the Inner Rail

Each inner rail has a locking latch. This latch prevents the server from coming completely out of the rack when when the chassis is pulled out for servicing.

To mount the rail onto the chassis, first release the inner rail from the outer rails.

Releasing Inner Rail from the Outer Rails

  1. Pull the inner rail out of the outer rail until it is fully extended as illustrated below.
  2. Press the locking tab down to release the inner rail.
  3. Pull the inner rail all the way out.
  4. Repeat for the other outer rail.

Supermicro CSE-826BE2C-R609JBOD - Releasing Inner Rail from the Outer Rails - 1

flowchart
graph TD
    A["Step 1"] --> B["Step 2"]
    B --> C["Step 3"]

Figure 5-2. Extending and Releasing the Inner Rail

Installing the Inner Rails on the Chassis

Installing the Inner Rails

  1. Identify the left and right inner rails. They are labeled.
  2. Place the inner rail firmly against the side of the chassis, aligning the hooks on the side of the chassis with the holes in the inner rail.
  3. Slide the inner rail forward toward the front of the chassis until the quick release bracket snaps into place, securing the rail to the chassis.
  4. Optionally, you can further secure the inner rail to the chassis with a screw.
  5. Repeat for the other inner rail.

Inner Rails 4 2 4 3

Figure 5-3. Installing the Inner Rails

Supermicro CSE-826BE2C-R609JBOD - Installing the Inner Rails - 2

natural_image Isometric line drawing of a server rack unit (no text or symbols)

Figure 5-4. Inner Rails Installed on the Chassis

Installing the Outer Rails onto the Rack

Installing the Outer Rails

  1. Press upward on the locking tab at the rear end of the middle rail.
  2. Push the middle rail back into the outer rail.
  3. Hang the hooks on the front of the outer rail onto the square holes on the front of the rack. If desired, use screws to secure the outer rails to the rack.
  4. Pull out the rear of the outer rail, adjusting the length until it just fits within the posts of the rack.
  5. Hang the hooks of the rear section of the outer rail onto the square holes on the rear of the rack. Take care that the proper holes are used so the rails are level. If desired, use screws to secure the rear of the outer rail to the rear of the rack.
  6. Repeat for the other outer rail.

Technical diagram illustrating four stages of a mechanical assembly: linear motion, vertical displacement, internal structure, and final assembly.

Figure 5-5. Extending and Mounting the Outer Rails

Supermicro CSE-826BE2C-R609JBOD - Installing the Outer Rails - 2

Stability hazard. The rack stabilizing mechanism must be in place, or the rack must be bolted to the floor before you slide the unit out for servicing. Failure to stabilize the rack can cause the rack to tip over.

Do not use a two post "telco" type rack.

Sliding the Chassis onto the Rack Rails

Supermicro CSE-826BE2C-R609JBOD - Sliding the Chassis onto the Rack Rails - 1

Warning: Mounting the system into the rack requires at least two people to support the chassis during installation. Please follow safety recommendations printed on the rails.

Installing the Chassis into a Rack

  1. Extend the outer rails as illustrated above.

  2. Align the inner rails of the chassis with the outer rails on the rack.

  3. Slide the inner rails into the outer rails, keeping the pressure even on both sides. When the chassis has been pushed completely into the rack, it should click into the locked position.

  4. Optional screws may be used to hold the front of the chassis to the rack.

Ball-Bearing Shuttle

Figure 5-6. Installing into a Rack

Note: The figure above is for illustrative purposes only. Always install servers to the bottom of the rack first.

Supermicro CSE-826BE2C-R609JBOD - Installing the Chassis into a Rack - 2

Caution: Do not pick up the server with the front handles. They are designed to pull the system from a rack only.

Chapter 6

CSE-PTJBOD-CB3 Control Board

6-1 Overview

The CSE-PTJBOD-CB3 model JBOD control board allows the user to remotely control and monitor the chassis resources using IPMI, such as powering on or off, controlling fan speeds and reading temperature data from the backplane. It has been designed to utilize the most up-to-date technology available, providing your system with reliable, high-quality performance.

This manual reflects the revision 1.02 JBOD control board, the most current release available at the time of publication. Refer to the Supermicro web site at www.supermicro.com for the latest updates, compatible parts and supported configurations.

6-2 Safety Guidelines

ESD Safety Guidelines

Electrostatic Discharge (ESD) can damage electronic components. To prevent damage to your system, it is important to handle it very carefully. The following measures are generally sufficient to protect your equipment from ESD.

  • Use a grounded wrist strap designed to prevent static discharge.
  • Touch a grounded metal object before removing a component from the antistatic bag.
  • Handle the control board by its edges only; do not touch its components, peripheral chips, memory modules or gold contacts.
  • When handling chips or modules, avoid touching their pins.
  • Put the control board and peripherals back into their antistatic bags when not in use.

General Safety Guidelines

  • Always disconnect power cables before installing or removing any components from the computer, including the control board.
  • Disconnect the power cable before installing or removing any cables from the control board.
  • Make sure that the control board is securely and properly installed in the chassis to prevent damage to the system due to power shortage.

6-3 Components, Connectors, Jumpers and LEDs

Component and Connector Locations
Diagram of a computer system layout with numbered components and labeled connectors

Figure 6-1. Components and Connectors on the CSE-PTJBOD-CB3

Components and Connectors

1. BMC Chip
2. SAS2/SAS3 I ^2 C Connectors JP1-JP4
3. Manufacturing Test Connector: J3
4. Manufacturer's USB Test Connector FB1
5. IPMI LAN LED Header: JP6
  1. IPMI LAN Connector: J8
  2. (SC847D only) SAS2 I²C Connectors: J4 - J7
  3. Control Panel Connector: JF1
  4. PMBus Connector: JPI 2C1
  5. Fan Connectors: FAN1 - FAN10
  6. ATX Power Connector: JPW1

Component and Connector Definitions

1. BMC Chip

The Baseboard Management Controller (BMC) chip monitors the physical state of a system and provides communication with the system administrator through an independent connection.

2. PC Connectors

These connectors (JP1-JP4) accept cables for up to four SAS2/SAS3 backplanes that carry management data between the the backplane and the control board.

3 and 4. Manufacturing Test Connectors

Connectors J3 and FB1 are for Supermicro manufacturing use only.

5. BMC LAN LED Header

This connector is designated JP6 and is used to connect to the LED indicators on the chassis using cable CBL-NTWK-0584 or CBL-NTWK-0587.

Ground Link Act 2 1 UID Ground Ground

6. BMC LAN Connector

The Intelligent Platform Management Interface (IPMI) LAN connector is designated J8 and supports connectivity with a local network using cable CBL-NTWK-0584 or CBL-NTWK-0587.

7. SC847D SAS2 I²C Connectors

(Used for SC847D only) The backplane connectors, designated J4-J7, accept internal cables to connect to up to four SC847D expanders.

8. Control Panel Connector

This connector is designated JF1 and connects to the control panel on the chassis. See Chapter 3 for additional control panel information.

Ground X FP PWRLED NIC1 Link Blue+ (OH/Fan Fall/ PWR Fail/UID LED) Power Fail LED Ground Ground 20 19 NMI X 3V3 ID_UID_SW/3/3V Stby NIC1 Activity Red+ (Blue LED Cathode) 3V3 Reset Reset Button PWR Power Button

9. PMBus Connector

This connector is designated JPI2C1 and connects the power distributor to the Power Management Bus (PMBus).

10. Fan Connectors

The fan connectors supply power to the fans and are designated FAN1-FAN10.

11. ATX Power Connector

The ATX power connector is designated JPW1.

Jumpers and LED Indicators

JP7 JP5

Figure 6-2. Jumpers

SAS2/SAS3 Jumpers
Jumper Description
JP7Pins 1-2: Obsolete, do not usePins 2-3: User mode (static/DHCP, default)
JP5Pins 1-2: SAS3 enabledPins 2-3: SAS2 enabled and SC847D

To enable SAS2 or SAS3 functionality on the I²C connectors, set the JP5 jumper as noted.

LE1 LE2

Figure 6-3. LED Indicators

LED Indicators
LED Description
LE1 Heartbeat LED: A blinking LED indicates BMC activity
LE2 Power LED: DC power indicator

6-4 I²C Cabling to the Backplane

This JBOD storage enclosure is pre-configured with the internal cables connected. Use this section for reference if a cable becomes disconnected during maintenance. Ensure that the JP5 jumper on the JBOD control board is set according to the table in the section, Jumpers and LED Indicators.

When enabling SAS2/SAS3 functionality, connect the I²C connectors on the JBOD control board (Figure CB3-1) to the proper connector on the backplane. Refer to the table below and the backplane documentation to determine the correct connector.

Backplane Connect to the Primary FC Connector Cable CBL-CDAT-0601 JP1 to JP4 (see table below) CB3 JBOD Control Board

Figure 6-4. SAS I²C Cabling (except SC847D)

Connections for SC826B JBOD Chassis

Specific ^C connectors (JP1-JP4) on the JBOD control board are connected to the backplane.

Supermicro CSE-826BE2C-R609JBOD - Connections for SC826B JBOD Chassis - 1

flowchart
graph TD
    JP1 --> A["Component 1"]
    JP2 --> B["Component 2"]
    JP3 --> C["Component 3"]
    JP4 --> D["Component 4"]
I^2C Cable Connections for SC826B JBOD
Control BoardBPN-SAS3-216EL Backplane
JP1SMB connector

6-5 JBOD Power Up/Power Down Sequences

There are several procedures to turn on or off the system with the CB3 JBOD control board.

Power Up

First Use or Power Cord Plug-In

  1. Plug the power cords into the rear of the power supplies.
  2. Wait until blue Information LED starts to blink.

  3. Press the power button once. The JBOD control board initiates the power up sequence in three seconds.

After Normal Shutdown by IPMI or Power Button

Press the power button once. The JBOD control board will initiate the power up sequence in three seconds.

After a Power Loss

The system will power up automatically approximately 45 seconds after the power returns.

Power Down

  1. Hold down the power button. The blue Information LED will begin blinking. Continue to hold the power button.
  2. Release power button after blue LED stops blinking and goes dark.
  3. The shutdown sequence will begin and shut down the system within ten seconds

6-6 BMC

The control board provides remote access, monitoring and management through the baseboard management controller (BMC) and other management controllers distributed among different system modules. There are several BIOS settings that are related to BMC. For general documentation and information on BMC, visit our website at:

www.supermicro.com/en/solutions/management-software/bmc-resources

BMC ADMIN User Password

For security, each system is assigned a unique default BMC password for the ADMIN user. This can be found on a sticker on the chassis and a sticker on the control board. The sticker also displays the BMC MAC address.

BMC AC1F6BC PWD SUOKJ

Figure 6-5. BMC Password Label

IP Address

The default IP address configuration mode is Dynamic Host and Configuration Protocol (DHCP). When connected to the network, you can find the IP address assigned to this system from the DHCP server. (See below for an additional method to identify the assigned IP address.) This allows you to log in to the BMC.

Note: The IP configuration mode can be reset to Static IP mode for troubleshooting. Press and hold the UID/reset button on the front Control panel for 6-8 seconds to change to static IP mode with the default IP address as shown below. Return the IP configuration mode back to DHCP using the BMC.

Simple setup configuration:

IPMI default IP: 192.168.1.99

User name: ADMIN

Password: Unique password, as noted on sticker (details above)

Finding BMC IP Address Using SAS In-band (Linux)

An alternate method of finding the IP address:

  1. Identify the JBOD enclosure name, for example /dev/sg4.
  2. Use the vpd command to view the IP address.

[root@hdmaster user]# sg_vpd -p 0x85 /dev/sg4

Management network addresses VPD page:

Target device that contains addressed lu, Service type: unspecified

172.31.40.150

[root@hdmaster user]#

Notes

Appendix A

SC826 JBOD Power Supply Specifications

This appendix lists power supply specifications for the SC826 JBOD chassis.

650W Model
Supermicro Part #PWS-609P-1R2 with PDB
AC Input100-240 V, 4.5-11 Amp, 50-60 HzSupermicro CSE-826BE2C-R609JBOD - SC826 JBOD Power Supply Specifications - 1
DC Output +12V600W (100p127Vac) 50A650W (200-240V) 54A
+5V standby4 Amp

Notes

Appendix B

BPN-SAS3-826EL Backplane Specifications

B-1 Overview of the SAS3-826EL1/EL2 Backplanes

This appendix provides details about the backplanes used in the SC826 JBOD chassis.

Chassis Model Backplane Feature
SC826BE1C-R741JBOD BPN-SAS3-826EL1 Single SASexpander
SC826BE2C-R741JBOD BPN-SAS3-826EL2 Dual SASexpanders

B-2 Safety Guidelines

ESD Safety

Electrostatic Discharge (ESD) can damage electronic components. To prevent damage to your system, it is important to handle it very carefully. The following measures are generally sufficient to protect your equipment from ESD.

  • Use a grounded wrist strap designed to prevent static discharge.
  • Touch a grounded metal object before removing a component from the antistatic bag.
  • Handle the backplane and daughter cards by their edges only; do not touch its components, peripheral chips, memory modules or gold contacts.
  • When handling chips or modules, avoid touching their pins.
  • Put the card and peripherals back into their antistatic bags when not in use.

General Safety Guidelines

To avoid personal injury and property damage, carefully follow all the safety steps listed below when accessing your system or handling the components.

- Always disconnect power cables before installing or removing any components from the computer, including the backplane.

  • Disconnect the power cable before installing or removing any cables from the backplane.
  • Make sure that the backplane is securely and properly installed on the motherboard to prevent damage to the system due to power shortage.

B-3 Version Information

The BPN-SAS3-826EL backplane has been designed to utilize the most up-to-date technology available, providing your system with reliable, high-quality performance.

This manual reflects BPN-SAS3-826EL revision 1.01, the most current release available at the time of publication. Always refer to the Supermicro Web site at www.supermicro.com for the latest updates, compatible parts and supported configurations.

B-4 Rear Connectors

3 7 2 9 5 11 10 1 8 SUPERB BPN-SAS3-824CL1 SAS CODE SAS CODE 6 4 4 4 4 3 3 5 5 5 300x590Hz

Figure B-1. Rear Connectors and Components

  1. Primary expander chip.
  2. Secondary expander chip (not present on EL1 single port backplanes).
  3. Power connectors: JPW1, JPW2, and JPW3.
  4. Primary SAS ports: PRI-J1 through PRI-J4.
  5. Secondary SAS ports: SEC-J1 through SEC-J4 (not present on EL1 single port backplanes).
  6. Primary UART connector: PRI-UART (J22) for manufacturer's use only.

  7. Secondary UART connector: SEC-UART(J23) for manufacturer's use only, not present on EL1 backplanes.

  8. Primary SDB connector: PRI-SDB (J18), for manufacturer's use only.
  9. Secondary SDB connector: PRI-SDB (J19), for manufacturer's use only, not present on EL1 backplanes.
  10. Primary I²C connector. I2C#0 (J20).
  11. Secondary I²C connector, I2C#4 (J21).

B-5 Rear Connector and Pin Definitions

1-2. Primary and Secondary Expander Chips

The primary and secondary expander chips allow the backplane to support dual port, cascading, and failover configurations.

3. Backplane Main Power Connectors

The 4-pin connectors, designated JPW1, JPW2, and JPW3, provide power to the backplane. See the table on the right for pin definitions.

BackplaneMain Power4-Pin Connector
Pin#Definition
1 +12V
2 and 3 Ground
4 +5V

4-5. Primary and Secondary SAS Connectors

The primary SAS connectors are designated PRI-J1 through PRI-J4. The secondary SAS Ports are designated SEC-J1 through SEC-J4 and are not present on EL1 single port backplanes.

6-7. Primary and Secondary UART Connectors

UART connectors are used for manufacturer's diagnostic purposes only. The primary UART connector is designated PRI-UART and J22. The secondary UART connector is designated SEC-UART and J23, and is not present on BPN-SAS3-826EL1.

8-9. SDB Connectors

These are debug connectors used for the manufacturer's diagnostic purposes only. The Primary SDB connector is designated PRI-SDB and J18. The secondary SDB connector is designated SEC-SDB and J19, and is not present on BPN-SAS3-826EL1.

10-11. I²C Connectors

In a JBOD configuration, this connector is cabled to the JBOD control board, CSE-PTJBOD-CB3, to transmit management data between the the backplane and the control board. The primary I²C connector. is designated I2C#0 (J20). The secondary I²C connector is designated I2C#4 (J21), and is not present on BPN-SAS3-826EL1.

B-6 Rear Jumper Location and Settings

ACT-LED TEST

Figure B-2. Jumpers

Explanation of Jumpers

To modify the operation of the backplane, jumpers can be used to choose between optional settings. Jumpers create shorts between two pins to change the function of the connector. Pin 1 is identified with a square solder pad on the printed circuit board. Note: On two pin jumpers, "Closed" means the jumper is on and "Open" means the jumper is off the pins.
Connector Pins Jumper Setting 3 2 1 ● ● ■ 3 2 1

General Jumper Settings
JumperJumper SettingsNote
ACT-LED TESTOpen: Disabled (Default)Closed: EnabledActivity LED test.

B-7 Rear LED Indicators

HB-LED (J28) LED27 SUPERC BPN-GAS3-B20BL1 FB CODE SAR CODE HB-LED (J29) 5V 12V

Figure B-3. Rear LEDs

Backplane LEDs
LEDNormal StateAbnormal StateSpecification
HB-LED (J29) BlinkingOn/Off Heartbeat LED, primary expander
HB-LED (J28) BlinkingOn/Off Heartbeat LED, secondary expander
LED27 Off On System overheat LED
5V On Off 5V power status
12V On Off 12V power status

B-8 Front Connectors and LED Indicators
Supermicro CSE-826BE2C-R609JBOD - B-7 Rear LED Indicators - 2

flowchart
graph TD
    A["DRV#1 J1"] --> B["LED1 LED13"]
    C["DRV#2 J2"] --> D["LED2 LED14"]
    E["DRV#3 J3"] --> F["LED3 LED15"]
    G["DRV#4 J4"] --> H["LED4 LED16"]
    I["DRV#5 J5"] --> J["LED5 LED17"]
    K["DRV#6 J6"] --> L["LED6 LED18"]
    M["DRV#7 J7"] --> N["LED7 LED19"]
    O["DRV#8 J8"] --> P["LED8 LED20"]
    Q["DRV#9 J9"] --> R["LED9 LED21"]
    S["DRV#10 J10"] --> T["LED10 LED22"]
    U["DRV#11 J11"] --> V["LED11 LED23"]
    W["DRV#12 J12"] --> X["LED12 LED24"]

Figure B-4. Front Connectors and LEDs

Front SAS/SATA Connectors and LED Indicators
Drive Number LabelHDD Activity LED (blue)Failure LED (red)
DRV#1 (SAS HDD 1)J1 LED1LED13
DRV#2 (SAS HDD 2)J2 LED2LED14
DRV#3 (SAS HDD 3)J3 LED3LED15
DRV#4 (SAS HDD 4)J4 LED4LED16
DRV#5 (SAS HDD 5)J5 LED5LED17
DRV#6 (SAS HDD 6)J6 LED6LED18
DRV#7 (SAS HDD 7)J7 LED7LED19
DRV#8 (SAS HDD 8)J8 LED8LED20
DRV#9 (SAS HDD 9)J9 LED9LED21
DRV#10 (SAS HDD 10)J10LED10LED22
DRV#11 (SAS HDD 11)J11LED11LED23
DRV#12 (SAS HDD 12)J12LED12LED24

Dual Port and Cascading Configurations

B-9 Single and Dual Port Expanders

SAS connectors PRI-J1 to J4 and SEC-J1 to J4 are bidirectional and can be treated as input or output.

Single Ports

BPN-SAS3-826EL1 backplanes have a single port expander that accesses all of the drives and supports cascading.

Port A Primary Expander 1

Secondary Expander Not Present on EL1 Models SEC-J4 SEC-J3 SEC-J2 SEC-J1 To Lower Backplane in Cascaded System PRI-J4 PRI-J3 PRI-J2 PRI-J1 From HBA or Higher Backplane

Figure B-5. BPN-SAS3-826EL1 Single Port Configuration

Dual Ports

BPN-SAS3-826EL2 model backplanes have dual-port expanders that access all of the hard drives. These dual-port expanders support cascading, failover, and recovery.

Port B: Secondary Expander Ports
Port A: Primary Expander Ports
To Lower Backplane in Cascaded System SEC-J4 SEC-J3 SEC-J2 SEC-J1 From HBA#2 or Higher Backplane To Lower Backplane in Cascaded System PRI-J4 PRI-J3 PRI-J2 PRI-J1 From HBA#1 or Higher Backplane

Figure B-6. BPN-SAS3-826EL2 Dual Port Configuration

Connecting an Internal HBA to the Backplane

This section shows connections and cables that connect an internal HBA to the backplane. Note: Not applicable for the SC826 JBOD chassis.

HBA PRI-J4 PRI-J3 PRI-J2 PRI-J1

Figure B-12. Single Internal Host Bus Adapter

Supermicro CSE-826BE2C-R609JBOD - Connecting an Internal HBA to the Backplane - 2

flowchart
graph TD
    HBA --> SEC_J1["SEC-J1"]
    HBA --> SEC_J2["SEC-J2"]
    HBA --> SEC_J3["SEC-J3"]
    HBA --> SEC_J4["SEC-J4"]
    SEC_J1 --> PRI_J1["PRI-J1"]
    SEC_J2 --> PRI_J2["PRI-J2"]
    SEC_J3 --> PRI_J3["PRI-J3"]
    SEC_J4 --> PRI_J4["PRI-J4"]
    HBA --> HBA
    style SEC_J1 fill:#f9f,stroke:#333
    style SEC_J2 fill:#f9f,stroke:#333
    style SEC_J3 fill:#f9f,stroke:#333
    style SEC_J4 fill:#f9f,stroke:#333
    style PRI_J1 fill:#ccf,stroke:#333
    style PRI_J2 fill:#ccf,stroke:#333
    style PRI_J3 fill:#ccf,stroke:#333
    style PRI_J4 fill:#ccf,stroke:#333

Figure B-13. Dual Internal Host Bus Adapter

Important: See Failover with RAID Cards and Multiple HBAs in this appendix for important information on supported configurations.

Supported Internal HBA Cables

Use the following cables to create connections between the internal HBA and BPN-SAS3-826EL backplane. The cables required depend upon the HBA connector.

Cable Name: Internal iPass (Mini-SAS) to HD (Mini-SAS)

Part #: CBL-SAST-0508-01 Length: 50 cm (19 inches)

Part #: CBL-SAST-0507-01 Length: 80 cm (31 inches)

Description: This cable has an iPass (SFF-8087/Mini-SAS) connector (36-pin) at one end and a Mini-SAS HD (SFF-8643) connector at the other end. It connects from the SAS2 HBA to the BPN-SAS3-826EL backplane.

Cable name: Internal HD (Mini-SAS) to HD (Mini-SAS)

Part #: CBL-SAST-0568 Length: 35 cm (13 inches)

Part #: CBL-SAST-0593 Length: 60 cm (23 inches)

Part #: CBL-SAST-0531 Length: 80 cm (31 inches)

Description: This cable has a Mini-SAS HD (SFF-8643) connector at both ends. It connects from the SAS3 HBA to the BPN-SAS3-826EL backplane.

B-10 Failover

The BPN-SAS3-826EL2 model backplane has two expanders which enable effective failover and recovery.

Single Host Bus Adapter

In a single host bus configuration, the backplane connects to one host bus adapter.

Adapter Configuration, the one host bus SAS HBA SEC-J4 SEC-J3 SEC-J2 SEC-J1 Port B Expander 2 PRI-J4 PRI-J3 PRI-J2 PRI-J1 Port A Expander 1

Figure B-7. Single HBA

Single Host Bus Adapter Failover

If the expander or data path in Port A fails, the system automatically switches to Port B with application software or failover support.

SAS HBA Port B Expander 2 PRI-J4 PRI-J3 PRI-J2 PRI-J1 Port A Expander 1

Figure B-8. Single HBA Failover

Failover with RAID Cards and Multiple HBAs

The BPN-SAS3-826EL backplane may be configured for failover with multiple HBAs using either RAID controllers or HBAs to achieve failover protection.

RAID Controllers: If RAID controllers are used, then the failover is accomplished through port failover on the same RAID card.

HBAs: If multiple HBAs are used to achieve failover protection and load balancing, Linux MPIO software must be installed and correctly configured to perform the load balancing and failover tasks.

Dual Host Bus Adapter

In a dual host bus configuration, the backplane connects to two HBA's.

Supermicro CSE-826BE2C-R609JBOD - Dual Host Bus Adapter - 1

flowchart
graph TD
    A["SAS HBA"] --> B["Port B Expander 2"]
    C["SAS HBA"] --> D["Port A Expander 1"]
    B --> E["SEC-J4"]
    B --> F["SEC-J3"]
    B --> G["SEC-J2"]
    B --> H["SEC-J1"]
    D --> I["PRI-J4"]
    D --> J["PRI-J3"]
    D --> K["PRI-J2"]
    D --> L["PRI-J1"]

Figure B-9. Dual HBA

Dual Host Bus Adapter Failover

If the expander or data path in Port A fails, the system automatically switches to Port B. This maintains a full connection to all drives.

Supermicro CSE-826BE2C-R609JBOD - Dual Host Bus Adapter Failover - 1

flowchart
graph TD
    A["SAS HBA"] --> B["Port B Expander 2"]
    C["SAS HBA"] --> D["Port A Expander 1"]
    B --> E["PRI-J4"]
    B --> F["PRI-J3"]
    B --> G["PRI-J2"]
    B --> H["PRI-J1"]
    D --> I["External Signal"]

Figure B-10. Dual HBA Failover

Important: For RAID controllers, redundancy is achieved through port failover. For multiple HBAs MPIO software is required to achieve failover protection.

B-12 JBOD Control Board

In a cascaded configuration, the first chassis includes a motherboard and at least one host bus adapter (HBA). Other storage enclosures in the system must be equipped with a JBOD control board. This board controls power and provides some management over the chassis components. For more information, see Appendix C in this manual, or the Supermicro web site at www.supermicro.com.

The SC826 JBOD chassis includes the JBOD control board.

Connection to Backplane

The I²C cables from the JBOD control board (JP1-JP4) are connected to the I2C#0 connector on the BPN-SAS3-826EL backplane.

I2C#0) SUPER1 BPN-SAS3-826EL BPN-SAS3-826EL backplane JP1 to JP4 (see Appendix C) CB3 JBOD Control Board

Figure B-11. SAS I²C Cabling

B-13 Connecting an External HBA to the Backplane

This backplane supports external host bus adapters. In this configuration, the HBA and the backplane are in different physical chassis. This allows adding a JBOD storage enclosure to an existing system.

Single External Host Bus Adapter
HBA JBOD Control Board PRI-J4 PRI-J3 PRI-J2 PRI-J1 CBL-SAST-0573 External Mini-SAS HD Cable

Figure B-14. Single External Host Adapter

Dual External Host Bus Adapter
Supermicro CSE-826BE2C-R609JBOD - B-13 Connecting an External HBA to the Backplane - 2

flowchart
graph TD
    A["HBA"] --> B["JBOD Control Board"]
    C["HBA"] --> B
    B --> D["CBL-SAST-0573 External Mini-SAS HD Cable"]
    style A fill:#f9f,stroke:#333
    style C fill:#f9f,stroke:#333
    style B fill:#ccf,stroke:#333
    style D fill:#cff,stroke:#333

Figure B-15. Dual External Host Bus Adapter

Important: See Failover with RAID Cards and Multiple HBAs in this appendix for important information on supported configurations.

Cable and Adapter

Supermicro CSE-826BE2C-R609JBOD - Cable and Adapter - 1

natural_image Coiled brown cable with yellow connectors, lying on a plain blue background (no text or symbols visible)

Figure B-17 External Mini-SAS HD to External Mini-SAS HD Cable

Cable Name: 1 Meter External Mini-SAS HD to External Mini-SAS HD Cable

Part #: CBL-SAST-0573

Ports: Single

Placement: External Cable

Description: External cascading cable, connects ports between servers and JBODs.

Supermicro CSE-826BE2C-R609JBOD - Cable and Adapter - 2

natural_image Electronic device module with two beige modules and black connectors, no visible text or symbols

Figure B-18. Mini-SAS HD Internal to External Adapter

Cable Name: 16-port Mini-SAS HD Internal to External Cable Adapter with LP Bracket

Part #: AOM-SAS3-16I16E-LP

Ports: Four wide-ports (sixteen ports total)

Placement: Internal cable with adapter

Description: Internal cable, connects the SAS3 backplane to external ports.

Connecting Multiple Backplanes in a Single Channel Environment

This section describes the cables used when cascading from a single HBA. These connections use CBL-SAST-0531 internal cables and CBL-SAST-0573 external cables.

Supermicro CSE-826BE2C-R609JBOD - Connecting Multiple Backplanes in a Single Channel Environment - 1

flowchart
graph TD
    A["HBA"] --> B["Port B Expander 2"]
    B --> C["Port A Expander 1"]
    C --> D["Mini-SAS HD Internal to External Adapter ACM-SAS3-16I16E-ADP"]
    D --> E["Port B Expander 2"]
    E --> F["JBOD Control Board"]
    F --> G["Port A Expander 1"]
    G --> H["CBL-SAST-0573 (External Cable)"]
    H --> I["PRI-J4 PRI-J3 PRI-J2 PRI-J1"]
    I --> J["CBL-SAST-0531 (Internal Cable)"]

Figure B-16. Single HBA Configuration

Connecting Multiple Backplanes in a Dual Channel Environment

This section describes the cables used when cascading from dual HBAs. These connections use CBL-SAST-0531 internal cables and CBL-SAST-0573 external cables.

Supermicro CSE-826BE2C-R609JBOD - Connecting Multiple Backplanes in a Dual Channel Environment - 1

flowchart
graph TD
    subgraph_Port_A_Expander_1["Port A Expander 1"]
        A1["PRI-J4"] --> B1["PRI-J3"]
        A2["PRI-J2"] --> B2["PRI-J1"]
        B1 --> C1["CBL-SAST-0531 (Internal Cable)"]
        B2 --> C2["CBL-SAST-0573 (External Cable)"]
    end

    subgraph_Port_B_Expander_2["Port B Expander 2"]
        B3["SEC-J4"] --> C3["SEC-J3"]
        B4["SEC-J2"] --> C4["SEC-J1"]
        C3 --> D1["JBOD Control Board"]
        C4 --> D2["JBOD Control Board"]
    end

    subgraph Port_A_Expander_1
        E1["PRI-J4"] --> F1["PRI-J3"]
        E2["PRI-J2"] --> F2["PRI-J1"]
        F1 --> G1["JBOD Control Board"]
        F2 --> G2["JBOD Control Board"]
    end

    subgraph Port_B_Expander_2
        H1["SEC-J4"] --> I1["SEC-J3"]
        H2["SEC-J2"] --> I2["SEC-J1"]
        I1 --> J1["JBOD Control Board"]
        I2 --> J2["JBOD Control Board"]
    end

    style Port_A_Expander_1 fill:#f9f,stroke:#333
    style Port_B_Expander_2 fill:#ccf,stroke:#333
    style Port_A_Expander_1 fill:#cfc,stroke:#333
    style Port_B_Expander_2 fill:#fcc,stroke:#333
    style Port_A_Expander_1 fill:#ffc,stroke:#333
    style Port_B_Expander_2 fill:#cfc,stroke:#333

Figure B-19 Dual HBA Configuration

Important: See Failover with RAID Cards and Multiple HBAs in this appendix for important information on supported configurations.

Notes

Appendix C

Compliance

Regulatory Compliance

FCC, ICES, CE, UKCA, VCCI, RCM, NRTL, CB

Applied Directives, Standards

EMC/EMI: 2014/30/EU (EMC Directive)

Electromagnetic Compatibility Regulations 2016

FCC Part 15 Subpart B

ICES-003

VCCI-CISPR 32

AS/NZS CISPR 32

BS/EN55032

BS/EN55035

CISPR 32

CISPR 24/CISPR 35

BS/EN 61000-3-2

BS/EN 61000-3-3

BS/EN 61000-4-2

BS/EN 61000-4-3

BS/EN 61000-4-4

BS/EN 61000-4-5

BS/EN 61000-4-6

BS/EN 61000-4-8

BS/EN 61000-4-11

Environment:

2011/65/EU (RoHS Directive)

EC 1907/2006 (REACH)

2012/19/EU (WEEE Directive)

California Proposition 65

Product Safety: 2014/35/EU (LVD Directive)

UL/CSA 62368-1 (USA and Canada)

Electrical Equipment (Safety) Regulations 2016

IEC/BS/EN 62368-1

Perchlorate Warning

California Best Management Practices Regulations for Perchlorate Materials: This Perchlorate warning applies only to products containing CR (Manganese Dioxide) Lithium coin cells. "Perchlorate Material-special handling may apply. See www.dtsc.ca.gov/hazardouswaste/perchlorate"

Disclaimer (cont.)

The products sold by Supermicro are not intended for and will not be used in life support systems, medical equipment, nuclear facilities or systems, aircraft, aircraft devices, aircraft/emergency communication devices or other critical systems whose failure to perform be reasonably expected to result in significant injury or loss of life or catastrophic property damage. Accordingly, Supermicro disclaims any and all liability, and should buyer use or sell such products for use in such ultra-hazardous applications, it does so entirely at its own risk. Furthermore, buyer agrees to fully indemnify, defend and hold Supermicro harmless for and against any and all claims, demands, actions, litigation, and proceedings of any kind arising out of or related to such ultra-hazardous use or sale.

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Brand : Supermicro

Model : CSE-826BE2C-R609JBOD

Category : Disk array