Intel SRCSASPH16I - RAID Controller Hardware Manual

Intel® RAID Controller SRCSASPH16I

Hardware Guide

Intel Order Number: E33256-001

Intel® RAID Controller SRCSASPH16I Hardware Guide i

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ii Intel® RAID Controller SRCSASPH16I Hardware Guide

Preface

This is the primary reference and user’s guide for the Intel® RAID Controller
SRCSASPH16I, which can be used for SAS and SAT A disk drives. It contains installation
instructions and specifications.

For details on how to configure the storage adapters, and for an overview of the software
drivers, see the Software User’s Guide on the Resource CD.

Audience

This document assumes that you have some familiarity with RAID controllers and related
support devices. The people who benefit from this book are:

• Engineers who are designing a RAID Controller SRCSASPH16I storage adapter into

• Anyone installing a RAID Controller SRCSASPH16I storage adapter in a RAID

a system.

system.

Organization

This document includes the following chapters and appendixes:

• Chapter 1 provides a general overview of the Intel
SRCSASPH16I.

• Chapter 2 describes the procedures for installing the RAID Controller SRCSASPH16I
storage adapter.

• Chapter 3 provides the characteristics and technical specifications for the RAID
Controller SRCSASPH16I storage adapter.

• Appendix A lists and explains the terms and abbreviations used in this manual.

Related Publication

The Software User’s Guide on the Resource CD that is included with the RAID controller.

®

RAID Controller

Intel® RAID Controller SRCSASPH16I Hardware Guide iii

iv Intel® RAID Controller SRCSASPH16I Hardware Guide

Figures

Figure 1. Inserting the Intel® RAID Controller SRCSASPH16I into a

PCI Express* Slot...................................................................................................................... 8

Figure 2. Connecting the Disk Drive.......................................................................................... 9

Figure 3. SAS and SATA Plugs and SAS Backplane Connector............................................ 10

Figure 4. Card Layouts............................................................................................................ 12

Intel® RAID Controller SRCSASPH16I Hardware Guide v

vi Intel® RAID Controller SRCSASPH16I Hardware Guide

Contents

Preface ........................................................................................................................iii

Audience ............................................................................................................................... iii

Organization ......................................................................................................................... iii

Related Publication ............................................................................................................... iii

Chapter 1, Overview ...................................................................................................1

Summary of SAS RAID Controller Features ..........................................................................1

Usability .........................................................................................................................2

Redundancy and Error Handling ...................................................................................3

SAS and SATA Features ...............................................................................................4

Online Capacity Expansion and RAID Level Migration Rules .......................................4

Beep Codes ...................................................................................................................5

Benefits of Serial Attached SCSI (SAS) ................................................................................5

Chapter 2, Intel® RAID Controller SRCSASPH16I Hardware Installation .............. 7

Requirements ........................................................................................................................7

Installation ..............................................................................................................................8

Connecting the Cables ........................................................................................................10

Configuring the Storage Adapter .........................................................................................11

Replacing a Controller .........................................................................................................11

Resolving a Configuration Mismatch ...................................................................................11

Chapter 3, Intel® RAID Controller SRCSASPH16I Characteristics ...................... 12

Technical Specifications ......................................................................................................13

Array Performance Features .......................................................................................14

Fault Tolerance ............................................................................................................15

Electrical Characteristics .............................................................................................16

Thermal and Atmospheric Characteristics ...................................................................16

Safety Characteristics ..................................................................................................17

A. Glossary of Terms and Abbreviations ............................................................... 18

Intel® RAID Controller SRCSASPH16I Hardware Guide vii

viii Intel® RAID Controller SRCSASPH16I Hardware Guide

Tables

Table 1. Jumper Descriptions ..................................................................................................12

Table 2. Specifications ............................................................................................................14

Table 3. Array Performance Features .....................................................................................14

Table 4. Fault Tolerance Features ..........................................................................................15

Table 5. Maxium Power Requirements ...................................................................................16

Table 6. Environmental Specifications ....................................................................................16

Table 7. Storage and Transit Specifications ............................................................................16

Intel® RAID Controller SRCSASPH16I Hardware Guide ix

1Overview

This chapter provides a general overview of the Intel® RAID Controller SRCSASPH16I.
It consists of the following sections:

• Summary of SAS RAID Controller Features

• Benefits of Serial Attached SCSI (SAS)

The Intel
intelligent PCI Express* SAS RAID controller. It provides reliability, high performance,
and fault-tolerant disk subsystem management. This is an ideal RAID solution for the
internal storage needs of workgroup, departmental, and enterprise systems. The RAID
Controller SRCSASPH16I offers a cost-effective way to implement RAID in a server for
internal and external storage.

The SAS controller allows you to use SATA and SAS hard disk drives in th e same sy stem,
so you can take advantage of the benefits of each type of drive. The controller can connect
up to eight drives directly and use expanders to connect to additional drives. See the ANSI
SAS standard, version 1.0 specification for more information about the use of expanders.

As the second generation PCI Express storage adapter, the RAID Controller
SRCSASPH16I addresses the growing demand for increased data throughput and
scalability requirements across midrange and enterprise-class server platforms. Simplified
cabling between drives is an additional benefit.

The optional Intel
builders to protect cached data during catastrophic system failures.

®

RAID Controller SRCSASPH16I Storage Adapter is a high-performance

®

RAID Smart Battery for cached data protection allows system

Summary of SAS RAID Controller Features

The Intel® RAID Controller SRCSASPH16I is an intelligent low-profile RAID adapter
with:

•An Intel

• An LSI 1068 SAS (including SATA) controller.

• 256 MB RAM.

• Sixteen independent internal ports provided via four SFF8087 connectors.

• Support for both enterprise-class SAS devices and desktop-class SATA drives.

• Support for up to 122 SAS or SATA drives and 64 logical drives.

• PCI Express* connector that fits into a x8 PCI Express slot capable o f 2.5 Gbps per
lane over PCI Express x1, or x16.

• 3.0 Gbps point-to-point transfer rate.

1 Intel® RAID Controller SRCSASPH16I Hardware Guide

®

IOP333 I/O processor running at 500 MHz.

Usability

The SAS controller supports the ANSI Serial Attached SCSI (SAS) standard, version 1.0.
In addition, the controller supports the Serial ATA (SATA) protocol defined by the Serial
ATA specification, version 1.0a.T he SAS controller is a versatile controller that
supporting both the SAS and SATA interfaces and provides the backbone of both server
and high-end workstation environments.

Protocols supported include:

• Serial SCSI Protocol (SSP): Communication with other SAS devices.

• SATA II Protocol: Communication with other SATA II devices.

• Serial Management Protocol (SMP): Topology management information sharing with
expanders.

• Serial Tunneling Protocol (STP) support for SATA II through expander interfaces.

• Smaller, thinner cabling with serial point-to-point 3.0 Gbps data transfer rates.

• Allows mixed connections to SAS or SATA targets.

• Support for non disk devices and mixed capacity drives.

• Support for intelligent XOR RAID levels 0, 1, 5, 6, 10, 50 and 60.

• Dedicated or global hot spare with auto rebuild if an array drive fails.

• User defined stripe size per drive (8, 16, 32, 64 (def), or 128 KB).

• Advanced array configuration and management utilities that provide:
— Online Capacity Expansion (OCE) adds space to existing drive or new drive.
— Online RAID level migration (upgrade of RAID mode, may require OCE).
— Drive migration.
— Drive roaming.
— No reboot necessary after expansion.

• An upgradeable Flash ROM interface.

• Allows for staggered spin up, hot plug, lower power consumption.

Intel® RAID Controller SRCSASPH16I Hardware Guide 2

• User specified rebuild rate (% of system resources to use from 0-100%).

Warning: Exceeding 50% rate may cause operating system errors caused by

waiting for controller access.

• Background operating mode can be set for rebuilds, consistency checks, initialization
(auto restarting consistency check on redundant volumes), migration, OCE, and patrol
read.

Redundancy and Error Handling

• Enclosure management support, including LEDs.

• Activity and fault indicators per drive, port selector (dual-port drives).

• Drive coercion (auto resizing to match existing disks).

• Auto-detection of failed drives with transparent rebuild. Disk activity (I/O to the
drive) must be present for a missing drive to be marked as failed.

• Auto-resume on reboot of initialization or rebuild (must be enabled before virtual disk
creation).

• Smart initialization automatically checks consistency of virtual disks if there are five
or more disks in a RAID 5 array which optimizes performance by enabling read­modify-write mode. RAID 5 arrays of only three or overdrives use peer read mode.

• Dirty cache LED plus cache write to disk error reporting.

• Smart Technology predicts failures of drives and electronic components.

• Patrol Read checks drives and maps bad sectors.

• Commands are retried at least four times.

• Firmware provides best effort to recognize an error and recover from it if possible.

• Failures are logged from controller and drive firmware, SMART monitor, SAF-TE
controller.

• Failures are logged in NVRAM, viewable from OS Event Log, Intel

®

RAID Web

Console 2; CIM, LEDs, and via alarm.

• Multiple cache options provide choice of speed, redundancy:
— Write: The data written / (done) signal is returned when data is written to drive or

only to cache:
^ Write-back (default): Faster, because it since doesn't wait for the disk, but

data will be lost if power is lost.

^ Write-through: Slower, but ensures data is on the disk.

— Read Ahead: Predicts the next read will be sequential and buffers this data into

the cache:
^ NonRead Ahead: Always reads from the drive after determining the exact

location of each read.

^ Adaptive Read Ahead: Will read ahead and cache data only if doing

sequential reads.

3 Intel® RAID Controller SRCSASPH16I Hardware Guide

— I/0 setting: Determines whether to read/write from cache to improve performance:

^ Cache I/O: Writes to the cache and next read checks the cache first.
^ Direct I/O: Never uses cache, all data goes from host to disk to host.

• Redundancy through:
— Configuration stored in nonvolatile RAM and on the drives (COD).
— Hot swap support.
— Optional battery backup for cache memory. Controller provides fast or trickle

charges.

SAS and SATA Features

• Provides sixteen independent PHYs, each supporting 3.0 Gbps and 1. 5 Gbps SAS and
SATA data transfers.

• Scalable interface that supports up to 16 directly attached SAS/SATA devices, 64
logical devices, or 122 SAS devices via expanders.

• Transfers data using SCSI information units.

• Supports SSP to enable communication with other SAS devices.

• Supports SMP to communicate topology management information.

• Supports single PHY or wide ports consisting of 2, 3, or 4 PHY within a single quad
port.

• Allows addressing of multiple SATA targets through an expander if using SATA 2.0­compliant hard disk drives.

• Allows multiple initiators to address a single target (in a fail-over configuration)
through an expander.

Online Capacity Expansion and RAID Level Migration Rules

• Migration must occur to the same or larger capacity configuration.

• Migration cannot occur if there is more than one virtual disk in a logical array.

• Migration and OCE cannot be done on Spanned Arrays (RAID 10, 50).

• Migrations supported are: RAID 1 to RAID 0, RAID 5 to RAID 0.

• With OCE, migrations supported are RAID 0 to RAID 1, RAID 0 to RAID 5, RAID 1
to RAID 5.

Intel® RAID Controller SRCSASPH16I Hardware Guide 4

Operating System Support

The RAID Controller SRCSASPH16I supports major operating systems, including:

• Microsoft Windows Server 2008*, Microsoft Windows Server 2003*, and Microsoft
Windows XP*

• Red Hat* Enterprise Linux 4.0 and 5.0 (32 and 64 bit)

• SuSe* Linux Enterprise Server 9 and 10 (32 and 64 bit)

Note: The operating systems supported by this controller may not be supported by your server

board. See the tested operating system list for your server board at
http://support.intel.com/support/motherboards/server/. See also the tested hardware and
operating system list for the RAID Controller SRCSASPH16I to make sure the RAID card
supports your operating system.

Beep Codes

• Short beep, 1 second on, 1 second off: The array is degraded, but no data is lost

• Long beep, 3 seconds on, 1 second off: The array has failed and data has been lost.

• Short beep, 1 second on, 3 seconds off: Using hot spare in rebuild. The alarm will
continue during the rebuild with a different sound at completion.

T o disable the alarm, choose Disable Alarm. To disable the alarm only until the next event
or until the next power cycle, choose Silence Alarm. To enable the alarm, choose Enable
Alarm.

Benefits of Serial Attached SCSI (SAS)

SAS is a serial, point-to-point, enterprise-level device interface that leverages the proven
SCSI protocol set. SAS is a convergence of the advantages of SATA, SCSI, and FC, and is
the future mainstay of the enterprise and high-end workstation storage markets. SAS
offers a higher bandwidth per pin than parallel SCSI, and improves signal and data
integrity.

The SAS interface uses the proven SCSI command set to ensure reliable data transfers,
while providing the connectivity and flexibility of point-to-point serial data transfers. The
serial transmission of SCSI commands eliminates clock skew challenges. The SAS
interface provides improved performance, simplified cabling, smaller connectors, lower
pin count, and lower power requirements when compared to parallel SCSI.

SAS controllers leverage a common electrical and physical connection interface that is
compatible with Serial ATA technology. The SAS and SATA protocols use a thin, 7-wire
connector instead of the 68-wire SCSI cable or 40-wire ATA cable. The SAS/SATA
connector and cable are easier to manipulate, allow connections to smaller devices, and do

5 Intel® RAID Controller SRCSASPH16I Hardware Guide

not inhibit airflow. The point-to-point SAT A architecture eliminates inherent difficulties
created by the legacy A TA master-slave architecture, while maintaining compatibility with
existing ATA firmware.

Intel® RAID Controller SRCSASPH16I Hardware Guide 6

2Intel

RAID Controller
SRCSASPH16I
Hardware Installation

This chapter describes the procedures used to install the Intel® RAID Controller
SRCSASPH16I with internal and external connectors.

Requirements

The following items are required to install a RAID Controller SRCSASPH16I:

®

•An Intel

• A host system with an available x8 or x16 bi-directional PCI Express* slot.

•The Resource CD, which contains drivers and documentation.

• The cables provided with the RAID controller.

®

RAID Controller SRCSASPH16I.

• SAS or SATA hard disk drives.

Intel Corporation strongly recommends using an uninterruptible power supply (UPS).

7 Intel® RAID Controller SRCSASPH16I Hardware Guide

Installation

1. Power off the computer and all drives, enclosures, and system components. Remove
the power cord from the computer.

2. Remove the chassis cover and access the PCI Express add-in card slots. See your
server chassis documentation for instructions.

3. Align the controller’s connector with a x8 or x16 PCI Express* slot on the server
board.

4. Press down gently but firmly to ensure that the card is properly seated in the slot, as
shown in Figure 1. Secure the bracket to the computer chassis.

Bracket Screw

Press

Here

Press

Here

Figure 1. Inserting the Intel

5. Connect the provided internal cables into the adapter using the 4-port combined end.
Make sure the controller and cables are properly attached.

Intel® RAID Controller SRCSASPH16I Hardware Guide 8

Edge of

Main Board

®

RAID Controller SRCSASPH16I into a

PCI Express* Slot

AF002644

— Plug the cable into connector at the inside edge of the adapter.

Figure 2. Connecting the Disk Drive

Note: System throughput problems can occur if using SAS cables that do not come with the

RAID controller and that are not the correct type. To minimize the potential for problems:

- Use cables no longer than ten meters for SAS and one meter for SATA. It is better to use
the shortest possible cables. The cable length should be reduced by about one foot (.33
meters) if using a backplane.

- You may connect one device per SATA /SAS cable either as a device or as an expander.

- Route SAS cables carefully.

- Use only “straight” SAS cables, not “cross-over” SAS cables.

6. Replace components you needed to remove to access the PCI Express add-in card
slot. See your server chassis documentation for instructions.

7. Reinstall the chassis cover and reconnect the power cord(s). See your server chassis
documentation for instructions.

8. Reconnect any peripheral items you needed to disconne ct.

9. Turn the power on to the server and hard drives. As the server powers up, listen to be
sure that the SAS and SATA devices are powered up before or at the same time as the
computer boots.

9 Intel® RAID Controller SRCSASPH16I Hardware Guide

10. Watch the boot process until you see a BIOS message to inform you of the key
combination to press to enter the RAID BIOS Console. It will look similar to the
following message:

Press <CTRL><G> to run BIOS Console 2.

This message will time out after several seconds and pass the option to get into the BIOS
Console.

The firmware takes several seconds to initialize and will then display the RAID Controller
SRCSASPH16I number and firmware version. The numbering of the controllers follows
the PCI slot scanning order used by the server board.

Connecting the Cables

This section describes the cables used on the SAS controller and provides instructions for
connecting SAS and SATA hard disk drives to the SAS RAID controller.

Note: Use only “straight” SAS cables, not “cross-over” SAS cables.

A SATA connector consists of a signal connector and a power connector. The SAS
connector adds a bridge (primary physical link) between the signal connector and the
power connector. This means SAS backplane connectors can accept either drive type, but
SATA backplane connectors can ONLY accept SATA drives. Figure 3 shows these
connectors.

SAS Primary
Physical Link

Serial A ttached SCSI

SAS Pr imary
Physical Link

SATA

Physical Link

Power

Serial A TA

Power

SAS Backplane

Recept a cle Connector

Power

SAS Secondary

Physical Link

Note: SA TA backplane connectors

will NOT accept SAS drives

SATA/SAS

Primary

Physical Link

Figure 3. SAS and SATA Plugs and SAS Backplane Connector

Intel® RAID Controller SRCSASPH16I Hardware Guide 10

Configuring the Storage Adapter

After performing the Intel® RAID Controller SRCSASPH16I installation, you must
configure the storage adapter and install the operating system driver. The Software User’s
Guide instructs you on the configuration options and how to set them on your RAID
Controller SRCSASPH16I, and provides detailed installation instructions for operating
system drivers.

Replacing a Controller

Perform the following steps to replace a failed controller.

1. Power off the computer and all drives, enclosures, and system components. Remove
the power cord.

2. Remove the chassis cover and access the PCI Express add-in card slots. See your
server documentation for instructions.

3. Disconnect the cable(s) from the RAID controller.

4. Remove the failed controller from the system.

5. Insert the replacement controller into the system. Follow the instructions under

Installation.

Resolving a Configuration Mismatch

If a replacement RAID Controller SRCSASPH16I has a previous configuration, a
message displays during POST stating that there is a configuration mismatch. A
configuration mismatch occurs when the configuration data in the NVRAM and the hard
disk drives are different. You need to update the configuration data in the NVRAM with
the data from the hard disk drive.

Perform the following steps to resolve the mismatch.

1. Press <Ctrl> <G> when prompted during the boot process to access the BIOS
Configuration Utility.

2. Select Configure—>V iew/Add Configuration. This allows viewing of the NVRAM
and drive configurations.

3. Select the configuration on disk because the drives contain the correct configuration.

4. Press <Esc> and select YES to update the NVRAM.

5. Exit and reboot.

11 Intel® RAID Controller SRCSASPH16I Hardware Guide

3Intel

RAID Controller

SRCSASPH16I Characteristics

This chapter describes the characteristics of the Intel® RAID Controller SRCSASPH16I.
Figure 4 displays the connectors and headers on the controller and T able 1 describes them.

®

Figure 4. Card Layout

s

Table 1. Jumper Descriptions

Jumper Description Type Comments

J1 Keyed I

connector

J2 Port activity LED

header (8-15)

J3 Drive Fault LED

header (8-15)

J4 Internal SAS/SATA

port connector,
ports 12-15

J5 Internal SAS/SATA

port connector,
ports 8-11

2

C

3-pin
connector

8x2 header LED signal for activity per port for 8-15 ports.

8x2 header LED signal support for front panel drive fault per

SFF8087 Connection to SAS/SATA devices.

SFF8087 Connection to SAS/SATA devices.

Out-of-band enclosure management (SAF-TE).

port (8-15).

Intel® RAID Controller SRCSASPH16I Hardware Guide 12

Table 1. Jumper Descriptions

Jumper Description Type Comments

J6 Dirty Cache LED

J9 Internal SAS/SATA

J11 Mode 0 select 2-pin

J12 Universal

J13 Internal SAS/SATA

J14 Drive Fault LED

J15 Port activity LED

J16 Intel

J17 Keyed I

Header

port connector,
ports 4-7

Asynchronous
Receiver/
Transmitter (UART)

port connector,
ports 0-3

Header (0-7)

header (0-7)

®

RAID Smart

Battery Connector

2

connector

C

SFF8087 For connection to enclusure LED. When lit,

SFF8087 Connection to SAS/SATA devices.

connector

4-pin
connector

SFF8087 Connection to SAS/SATA devices.

8x2 header LED signal support for front panel drive fault per

8x2 header LED signal for activity per port for 0-7 ports.

20-pin
connector

3-pin
connector

indicates the data in the cache has not been
written to disk.

No jumper is required for normal operation.

Setting the controller to Mode 0 holds the I/O
processor in reset for firmware recovery.

• "No Jumper = Normal operational mode.

• "Jumper = Mode 0 for firmware recovery,
requires a firmware recovery utility and
firmware image file.

For factory and debug use.

port (0-7).

Cable connector for the extrernal battery pack.
This connector is located on the back side of the
board.

Out-of-band enclosure management (SES2).

J18 Keyed I2C

connector

Technical Specifications

The design and implementation of the Intel® RAID Controller SRCSASPH16I minimizes
electromagnetic emissions, susceptibility to radio frequency energy, and the effects of
electrostatic discharge. See the appendices for regulatory marks and certifications.

13 Intel® RAID Controller SRCSASPH16I Hardware Guide

3-pin
connector

Out-of-band enclosure management (SES2).

Table 2 lists the specifications for the Intel® RAID Controller SRCSASPH16I.

Table 2. Specifications

Specification Intel® RAID Controller SRCSASPH16I

Processor

(PCI Controller)

Operating Voltage +3.3 V, +12 V

Card Size Full-height PCI Express* adapter card size (6.6 inches by 4.2 inches)

Array Interface
to Host

SAS Bus Speed 3 GBps per port, point-to-point

SAS Controller One LSI SAS 1068 controller

SAS / SATA Ports 4x4 internal ports. Supports 122 SAS/SATA devices using expanders, 64

Cache Integrated 256 MB RAM, optional battery backup

Firmware 4 MB in reflashable flash ROM

Compatible Devices Mixed capacity, mixed SATA and SAS in different enclosures; non-disk

Cabling Small, thin cables do not restrict airflow; shared connectors for multiple

Redundant
Configuration

Intel® 80333 I/O processor at 500 MHz

PCI Express* Rev 1.0A, x8 lane width 2.5 Gbps

virtual disks.

devices, including expanders.

drive types.

32 Kb NVRAM and config on disk (COD) store RAID configuration.

Enclosure
Management

I2C out-of-band, SES2 in-band, SAF-TE (LEDs)

Array Performance Features

Table 3 shows the RAID Controller SRCSASPH16I array performance features.

Table 3. Array Performance Features

Specification Intel® RAID Controller SRCSASPH16I

PCI Express* Host
Data Transfer Rate

Drive Data Transfer
Rate

Maximum
Scatter/Gathers

Intel® RAID Controller SRCSASPH16I Hardware Guide 14

2.5 Gigabit/s per lane

3 Gigabit/s per lane

26 elements

Table 3. Array Performance Features

Specification Intel® RAID Controller SRCSASPH16I

Maximum Size of I/O
Requests

Maximum Queue
Tags per Drive

Stripe Sizes 8, 16, 32, 64, or 128 Kbyte

Maximum Number
of Concurrent
Commands

Support for Multiple
Initiators

Flexibility Drive migration, RAID level migration; drive roaming online capacity

Background Services Rebuild, consistency check, initialization, migration, OCE, and patrol read

Cache Options Write-back or write-through, read ahead, adaptive read ahead, non-read

Fault Tolerance

Table 4 shows the RAID Controller SRCSASPH16I fault tolerance features.

6.4 Mbytes in 64 Kbyte stripes

As many as the drive can accept

255

Yes

expansion, without reboot

ahead, cache I/O or direct I/O

Table 4. Fault Tolerance Features

Specification Intel® RAID Controller SRCSASPH16I

Self Monitoring
Analysis and Reporting
Technology (SMART)
support

Optional Battery
Backup

Drive Replacement Auto detection of hard drive failure; hot-plug, hot-swap. User set rebuild

Drive Rebuild Using
Hot Spares

Error Checking and
Indication

Power Conservation Staggered spin-up, lower power requirements.

Detects up to 70% of all predictable disk drive failures and monitors the
internal performance of all motors, heads, and drive electronics.

®

Intel

RAID Smart Battery cache backup. Trickle / fast charging.

Charge indicator.

rate.

Automatic at drive failure; dedicated per array; global per array; auto­resume of initialization or rebuild on reboot

Parity generation and checking, automatic consistency checking; patrol
reads; activity and fault LEDs

15 Intel® RAID Controller SRCSASPH16I Hardware Guide

Electrical Characteristics

This section provides the power requirements for the RAID Controller SRCSASPH16I.
Table 5 lists the maximum power requirements.

Table 5. Maxium Power Requirements

Storage Adapter PCI Express* +12V PCI Express* +3.3V

SRCSASPH16I 18.85W without battery

charging; 21.85W with battery
charging

Thermal and Atmospheric Characteristics

Table 6. Environmental Specifications

Specification Description

Operating temperature 0 degrees Centigrade to 55 degrees Centigrade. (The maximum

Relative humidity range 5% to 90% noncondensing

Maximum dew point
temperature

Airflow 200 linear feet per minute (LFPM)

MTBF (electrical
components)

operating temperature decreases to +45 degrees Centigrade when the

®

Intel

Remote Smart Battery AXXRSBBU3 is installed)

32 degrees Centigrade

346,879 hours at 40 degrees Celsius

5.96W

Specification Description

Temperature range
without battery

Temperature range
with battery

Relative humidity range 5% to 90 % noncondensing

Intel® RAID Controller SRCSASPH16I Hardware Guide 16

Table 7. Storage and Transit Specifications

-30 degrees Centigrade to +80 degrees Centigrade (dry bulb)

0 degrees Centigrade to 45 degrees Centigrade (dry bulb)

Safety Characteristics

The RAID Controller SRCSASPH16I meets or exceeds the requirements of UL
flammability rating 94 V0. Each bare board is also marked with the supplier name or
trademark, type, and UL flammability rating. For the boards installed in a PCI Express*
bus slot, all voltages are lower than the SELV 42.4 V limit.

The design and implementation minimizes electromagnetic emissions, susceptibility to
radio frequency energy, and the effects of electrostatic discharge. The adapter carries the
CE mark, C-tick mark, FCC self-certification logo, Canadian compliance statement,
Korean MIC, Taiwan BSMI, and Japan VCCI. The adapter meets the requirements of
CISPR Class B. Both the adapter and battery are CCSA C22.2, No. 60950-1, UL60950-1
First Edition listed accessory, UL filenumber E257743.

17 Intel® RAID Controller SRCSASPH16I Hardware Guide

A Glossary of Terms and

Abbreviations

BIOS Basic Input/Output System. Software that provides basic read/write capability.

Usually kept as firmware (ROM based). The system BIOS on a server board is used
to boot and control the system. The BIOS on your host adapter acts as an extension
of the system BIOS.

Configuration The way a computer is setup; the combined hardware components (computer,

monitor, keyboard, and peripheral devices) that make up a computer system, and the
software settings that allow the hardware components to communicate with each
other.

Device Driver A program that allows a microprocessor (through the operating system) to direct the

operation of a peripheral device.

Domain
Validation

EEPROM Electronically Erasable Programmable Read-Only Memory. A memory chip

External SAS
Device

Host The computer system in which a storage adapter is installed. It uses the storage

Host Adapter
Board (HAB)

Internal SAS
Device

Main Memory The part of a computer’s memory which is directly accessible by the CPU (usually

NVRAM Non-volatile Random Access Memory. An EEPROM (Electronically Erasable

Peripheral
Devices

A software procedure in which a host queries a device to determine its ability to
communicate at the negotiated data rate.

typically used to store configuration information. It provides stable storage for long
periods without electricity and can be reprogrammed. See NVRAM.

A SAS device installed outside the computer cabinet. These devices are connected
together using specific types of shielded cables.

adapter to transfer information to and from devices attached to the SCSI bus.
A circuit board or integrated circuit that provides a device connection to the

computer system.
A SAS device installed inside the computer cabinet. These devices are connected

together using an unshielded ribbon cable.

synonymous with RAM).

Read-Only Memory chip) used to store configuration information. See EEPROM.
A piece of hardware (such as a video monitor, disk drive, printer, or CD-ROM) used

with a computer and under the computer’s control. SCSI peripherals are controlled
through a SAS Intel

®

RAID Controller SRCSASPH16I.

Intel® RAID Controller SRCSASPH16I Hardware Guide 18

SAS Serial Attached SCSI. A serial, point-to-point, enterprise-level device interface that

leverages the proven SCSI protocol set. The SAS interface provides improved
performance, simplified cabling, smaller connections, lower pin count, and lower
power requirements when compared to parallel SCSI. SAS controllers leverage a
common electrical and physical connection interface that is compatible with Serial
ATA. The SAS controllers support the ANSI Serial Attached SCSI standar d, version

1.0. In addition, the controller supports the Serial ATA (SATA) protocol defined by
the Serial ATA specification, version 1.0a. Each port on the SAS RAID controller
supports SAS and SATA devices.

SAS Device Any device that conforms to the SAS standard and is attached to the SAS bus by a

SAS cable. This includes SAS storage adapters (host adapters) and SAS peripherals.

19 Intel® RAID Controller SRCSASPH16I Hardware Guide