Intel RES2SV240 User Manual

®
Intel RAID Expander Card  
RES2SV240 Hardware User’s Guide  
Intel Order Number: E93121-002  
Preface  
This is the primary hardware guide for the Intel® RAID Expander Card RES2SV240,  
which can be used to manage SAS and SATA disk drives. It contains installation  
instructions and specifications.  
For details on configuring the storage adapters, and for an overview of the software  
drivers, see the Intel® RAID Software Users Guide on the Resource CD.  
Audience  
This document assumes that you have some familiarity with RAID  
controllers/modules/expanders and related support devices. The people who benefit from  
this book are:  
Engineers who are designing an Intel®RAID Expander Card RES2SV240 for their  
RAID system.  
Anyone installing an Intel®RAID Expander Card RES2SV240 in their RAID  
system.  
Organization  
This document includes the following chapters and appendices:  
Chapter 1 provides a general overview of the Intel® RAID Expander Card  
RES2SV240.  
Chapter 2 describes the procedures for installing and configuring the expander card.  
Chapter 3 provides the characteristics and technical specifications for the  
Intel®RAID Expander Card RES2SV240.  
Appendix A provides safety instructions to be observed during installation and  
assembly.  
Appendix B provides regulatory and certification information.  
Related Publication  
The Intel® RAID Software Users Guide is included on the Resource CD available on Intel  
support website at www.intel.com.  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
Table of Contents  
Intel® RAID Expander Card RES2SV240 ..............................................................................2  
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Intel RAID Expander Card RES2SV240 Hardware Installation .............................5  
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Intel RAID Expander Card RES2SV240 Characteristics .....................................11  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
1 Overview  
The Intel® RAID Expander Card RES2SV240 offers high performance, high disk drive  
connectivity,scalability, and flexibility in various storage environments, and is an  
attractive alternative to other expensive and complex topologies. The SAS expander is  
ideal for high availability and scalable server clustering environments and front-end  
storage subsystems used in clusters, Storage Area Networks (SANs), and Network-  
Attached Storage (NAS) environments. It is an optimal device for use in data centers and  
SANs, leveraging existing SCSI infrastructure for investment protection and ease of  
migration and implementation.  
Intel® RAID Expander Card RES2SV240 is a 24-port, 6.0Gb/s Serial Attached SCSI  
(SAS) expander that enables the connection of up to 24 directly attached SAS or Serial  
ATA (SATA) devices. Each expander phy is individually configurable and performs SAS  
and SATA transfers based on the speed of the host or target at either 6.0Gb/s, 3.0Gb/s, or  
1.5Gb/s.  
The Intel® RAID Expander Card RES2SV240 addresses the growing demand for  
increased data throughput and scalability requirements across entry level, midrange, and  
enterprise server platforms.  
SATA and SAS are serial, point-to-point, device interfaces that use simplified cabling,  
smaller connectors, lower pin counts, and lower power requirements than parallel SCSI.  
Benefits of SAS and SATA  
SAS is a serial, 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 than parallel SCSI.  
SAS controllers leverage a common electrical and physical connection interface that is  
compatible with Serial ATA technology. The SAS and SATA protocols support the use of  
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, connect to smaller devices, and  
do not inhibit airflow. The point-to-point SATA architecture eliminates difficulties created  
by the legacy ATA master-slave architecture, while maintaining compatibility with  
existing ATA firmware.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Intel® RAID Expander Card RES2SV240  
The SAS/SATA functionality for the Intel® RAID Expander Card RES2SV240 is  
contained within the LSI* LSISAS2x24 24-Port Serial Attached SCSI/SATA Expander  
chip. This expander card has twenty-four independent ports supporting 6Gb/s, 3 Gb/s, or  
1.5Gb/s SAS and SATA data transfers using six SFF-8087 mini-SAS connectors. This  
controller supports 4 inputs and 20 outputs configuration, or 8 inputs and 16 outputs  
configuration. This expander card is powered either from its standard PCI Express* x4  
connector (with only power pins) to get power from motherboard PCI Express slot, or  
from its RA 4-pin power connector for remote cable power.  
The expander card is designed to be compatible with the following Intel® RAID  
Controllers and Modules:  
Intel® Integrated RAID Module RMS2MH080  
Intel® RAID Module RMS2AF080 and RMS2AF040  
Intel® RAID Module RMS2LL080 and RMS2LL040  
Intel® RAID Controller RS2BL080, RS2BL040, and RS2BL080DE  
Intel® RAID Controller RS2MB044  
Intel® RAID Controller RS2WC080 and RS2WC040  
Intel® Integrated RAID Module SROMBSASMR  
Note: Additional cable might need to be purchased for some of above adapters to connect.  
Additional Intel® RAID Controllers and Modules may be supported. For the most up-to-  
date list, see the Compatibility section under the link for this Intel® RAID Expander Card  
The expander card supports the SAS protocol as described in the Serial Attached SCSI  
Standard, Version 2.0. The card also supports the Serial ATA II (SATA II) protocol defined  
by the Serial ATA Specification, Version 1.0a and the Serial ATA II: Extension to the Serial  
ATA Specification, Version 1.1. SATA II is an extension to SATA 1.0a.  
Protocol Support  
Each port on the expander card supports SAS devices, SATA II devices, or both using  
SSP, SMP, STP, and SATA II as follows:  
Serial SCSI Protocol (SSP) to enable communication with other SAS devices.  
SATA II Protocol to enable communication with other SATA II devices.  
Serial Management Protocol (SMP) to share topology management information  
with expanders.  
Serial Tunneling Protocol (STP) support for SATA II through expander interfaces.  
SAS protocol, described in the Serial Attached SCSI (SAS) Standard, version 2.0  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
   
SFF-8485 protocol, using the Serial GPIO (SGPIO) interface provided by the  
expander.  
Operating System Support  
The operating systems supported are determined by your RAID controller or module. See  
the Tested operating system list for your RAID controller or module at  
Features  
Supports both Serial Attached SCSI and Serial ATA devices  
6.0 Gbit/s, 3.0 Gbit/s, and 1.5 Gbit/s data transfer rate  
Six SFF-8087 mini-SAS connectors providing twenty-four SAS/SATA ports  
Supports 4 inputs and 20 outputs configuration  
Supports 8 inputs and 16 outputs configuration  
Output mini-SAS connectors support sideband SGPIO as per SFF-8485  
specification  
Onboard 4-pin SGPIO connector to be used for Intel® 6-drive hot-swap non-  
expander SATA/SAS backplane  
Two 2x12 headers to support Fault LED for each SAS/SATA port  
Power from RA 4-pin power connector or standard PCI Express* x4 connector  
Board functioning either in PCI Express slot or remotely in system  
Onboard screw holds allow the expander card to be mounted on a chassis wall inside  
a server system  
Low Profile and MD2 compliance  
Provides a low-latency connection to create and maintain transparent access to each  
connected SAS/SATA physical drive  
Staggered spin-up  
Hot Plug  
Native Command Queuing  
Allows multiple initiators to address a single target (in a fail-over configuration)  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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2 Intel RAID Expander Card  
RES2SV240 Hardware Installation  
Requirements  
Intel® RAID Expander Card RES2SV240, with full height or low profile brackets,  
or with screws  
Available PCI Express* x4 connector, or with available RA 4-pin power connector  
SAS and SATA hard drives up to 6Gb/s speed  
Six provided SAS/SATA cables (for cable requirements, see step 6 in “Installing the  
Note: Intel Corporation strongly recommends using an uninterruptible power supply (UPS).  
Installing the RAID Module  
To install the RAID Expander Card, follow these steps:  
1. Turn off the power to the system, all drives, enclosures, and system components.  
Remove the power cord(s).  
2. Remove the server cover. For instructions, see your server system documentation.  
3. If necessary, change the bracket on the expander card to fit the height of the server  
system (see Figure 1).  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Full-height  
Bracket  
Low-profile  
Bracket  
AF003490  
Figure 1. Changing the bracket  
4. Install the expander card into an available server system x4, x8 or x16 PCI-  
Express* slot (see Figure 2). To locate an appropriate slot and for instructions on  
installing an add-in card, see your server system documentation.  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
AF003491  
Figure 2. Installing Intel® RAID Expander Card RES2SV240  
5. (Optional) In case power can be supplied remotely from RA 4-pin 12V/5V power  
connector, the expander card can be located elsewhere within the server chassis  
instead of using a PCI Express slot, if only the cooling condition can meet the  
expander card's thermal and atmospheric requirement. The expander card can  
therefore be fastened by removing its bracket and fasten it to a customized chassis  
wall (see Figure 3). The expander card already has two holes for fastening the  
bracket, and 3 additional holds reserved. User needs to prepare screws and  
standoffs to match the hole size on both the expander card and customized  
chassis wall.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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AF003495  
Figure 3. Installing the Expander Card onto a Customized Chassis Wall  
6. Connect the SAS/SATA cables from the backplane (or hard drives) to the expander  
card, and from the expander card to a RAID module or RAID controller (see  
Figure 4, which takes 6-drive and 4-drive non-expander backplanes in Intel's  
pedestal chassis as an example for cabling). For information regarding connecting  
the recommended Right-angle end or Vertical end of the SAS/SATA cable to the  
SAS connectors of the controller, see your server/workstation board or chassis  
documentation. Make sure the cables are properly connected to the controller.  
Note: System throughput problems can occur if non-standard SAS cables are used.  
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.  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
Figure 4. Cabling among the Expander Card, RAID Module/Controller and  
Drives/Backplane  
7. Install the server system cover and connect the power cords. See your server system  
documentation for instructions.  
Configuring the Expander Card  
After physically installed into a server system, the Intel® RAID Expander Card  
RES2SV240 is transparent to users in RAID configurations. Refer to the technical  
specification or user guide of the RAID controller connected to this expander card to  
know how to configure a RAID system.  
Replacing the Expander Card  
To replace the RAID module, see your server system documentation for instructions to  
remove and then install an add-in adapter.  
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3 Intel RAID Expander Card  
RES2SV240 Characteristics  
J1  
J2  
J3  
J4  
J5  
J6  
J7  
J10  
J9  
J8  
AF003493  
Figure 5. Card Layout  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Table 1. Jumper Description  
s
Jumper  
Description  
Type  
Comments  
J1 - J6  
Internal mini SAS Port  
Connectors, Ports 0-3, 4-7, 8-  
11,12-15,16-19 and 20-23  
Connection to SAS/SATA devices:  
J1 = SAS port (0-3)  
J2 = SAS port (4-7)  
J3 = SAS port (8-11)  
J4 = SAS port (12-15)  
J5 = SAS port (16-20)  
J6 = SAS port (20-23)  
J7 - J8  
J9  
Discrete Fault LED header  
SGPIO connector  
2x12 pin header  
4-pin connector  
Connects to external, green or red LEDs that  
indicate drive faults, two 2x12 headers can support  
24 LEDs  
SGPIO out-of-band enclosure management,  
®
specifically to be used for Intel 6-drive hot-swap  
non-expander SATA/SAS backplane  
J10  
Power connector  
RA 4-pin  
connector  
12V power input from remote power supply  
SFF8087 Internal SFF8087 Internal SFF8087 Internal SFF8087 Internal  
SFF8087 Internal SFF8087 Internal  
SAS/SATA  
CONNECTOR  
Ports 0-3  
SAS/SATA  
CONNECTOR  
Ports 4-7  
SAS/SATA  
CONNECTOR  
Ports 12-15  
SAS/SATA  
CONNECTOR  
Ports 16-19  
SAS/SATA  
CONNECTOR  
Ports 20-23  
SAS/SATA  
CONNECTOR  
Ports 8-11  
TX RX  
TX RX  
TX RX  
TX RX  
TX RX  
TX RX  
FLASH  
LOCAL BUS  
GPIOs  
EEPROM  
LSI*LSISAS2x24 24-Port SAS/SATA Expander Chip  
SGPIO  
Connector  
AF003494  
Figure 6. Hardware Block Diagram  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
   
Major Components  
LSI* LSISAS2x24 24-Port SAS/SATA Expander chip  
The LSI* LSISAS2x24 24-Port SAS/SATA Expander chip is a 24-port, 6.0Gb/s Serial  
Attached SCSI (SAS) expander that enables the connection of up to 24 directly attached  
SAS or Serial ATA (SATA) devices, and provides table routing to support connections for  
up to 1024 SAS addresses. Each expander phy is individually configurable and performs  
SAS and SATA transfers based on the speed of the host or target at either 6.0Gb/s,  
3.0Gb/s, or 1.5Gb/s. For more information, see http://www.lsi.com/. The LSI*  
LSISAS2x24 24-Port SAS/SATA Expander chip provides the following functionality:  
Provides 24 phys  
Semi-Symmetric architecture  
Any phys may be combined into wide port(s)  
Any phy can be SAS or SATA attached  
Supports multiple data rates and auto-negotiation between the following:  
1.5Gb/s, 3.0Gb/s, and 6.0Gb/s SAS  
1.5Gb/s, 3.0Gb/s, and 6.0Gb/s SATA  
Supports SSP, STP, and SMP  
Supports the SAS protocol described in the Serial Attached SCSI (SAS) Standard,  
version 2.0  
Supports SATA as defined in the Serial ATA: High Speed Serialized AT Attachment  
Specification, version 2.5  
Supports SATA II including these features:  
6.0Gb/s SATA  
Staggered spin-up  
Hot Plug  
Native Command Queuing  
Activity and fault indicators per phy  
Port Selector (for dual-port drives)  
Provides a low-latency connection router to efficiently create and maintain  
connections  
Supports T10-Based and Phy-Based Zoning for storage partitioning  
PHY[3:0] supports optical links between LSI Gen2 SAS device  
Allows any number of phys to be included in a wide port  
Provides four I2C interfaces: I2C-A, I2C-B, I2C-C, and an I2C interface to an  
external SEP:  
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The I2C interface to the external SEP provides a backwards-compatible  
interface to an optional external SEP  
All four I2C interfaces can be configured for general-purpose use  
The ARM926 processor can access all four I2C interfaces  
Provides configurable drive spin-up sequencing on a per-phy basis  
Provides programmable Tx and Rx signal polarity for optimization of board routing  
Provides a scalable interface that supports up to 1024 SAS addresses through  
multiple expanders  
Offers an advanced LED and GPIO interface that provides serial and parallel GPIO  
capabilities:  
Provides a Serial General-Purpose I/O (SGPIO) interface for remote status  
indications  
Provides 11 independent GPIO signals  
Provides 72 independent LED signals and two internal port activity indicator  
signals that can be used as GPIOs  
Provides LEDs that support drive activity, fault, and status indications  
Provides debug capability via either EPP, Serial, or direct 8-bit CPU interface  
Provides external memory support for Flash, NVRAM and PSBRAM  
Flash ROM  
An 8-MB CFI-compliant flash ROM is used to accommodate expander card firmware.  
Diagnostic Components  
LED Placement and Function  
The Intel® RAID Expander Card RES2SV240 contains the following LEDs:  
One surface-mounted SXP_ACTIVE (“DS3B1”) LED (Green Color) to indicate  
activity of the internal Sxp port operating in any of the supported protocol modes.  
Another surface-mounted EXP_ACTIVE (“DS3B2”) LED (Green Color) to indicate  
activity on the internal SMP or SSP target ports which advertise the Expander’s  
WWN address.  
SAS/SATA Connectors  
The Intel® RAID Expander Card RES2SV240 provides six internal SFF8087 SAS/SATA  
signal connectors. Each SFF8087 connector provides support for four SAS/SATA ports.  
The sideband signals are configured to adhere to the SFF-8485 Specifications for SGPIO  
support.  
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AF003496  
Figure 7. Intel® RAID Expander Card RES2SV240 SAS/SATA Connectors  
SAS/SATA Connector Pin-out  
Signal names are with respect to the host; the device connected to the host reverses the  
signal names. Transmit pins connect to receive pins on the other device. The SAS/SATA  
connector is keyed at pin 1. These pin-outs for the serial ATA connector are not  
compatible with the legacy PATA connector.  
Each SFF8087 connector on this expander card can be used as input or output connector.  
Input means the connector is used to connect to initiator device such as RAID controller  
or RAID module. output means the connector is used to connect to target device such as  
backplane or hard drive.  
Shipment of this expander card only includes long SFF8087 to SFF8087 cables for output  
usage and short SFF8087 to SFF8087 cables for input usage.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Table 2. SFF8087 to SFF8087 Connector Pin-out  
Controller(or backplane) Connector Pin-  
Out  
Expander Connector Pin-Out  
Pin No Signal  
Pin No  
A1  
Signal  
GND  
B1  
B2  
B3  
B4  
B5  
B6  
B7  
B8  
B9  
GND  
A2  
A3  
A4  
A5  
A6  
A7  
A8  
A9  
A10  
A11  
SAS_RX_C_DP<3>  
SAS_RX_C_DN<3>  
GND  
SAS_TX_C_DP<3>  
SAS_TX_C_DN<3>  
GND  
SAS_RX_C_DP<2>  
SAS_RX_C_DN<2>  
GND  
SAS_TX_C_DP<2>  
SAS_TX_C_DN<2>  
GND  
SAS_A_SB_BP_TYPE  
GND  
SAS_A_SB0  
SAS_A_SB1  
GND  
SAS_A_SB4  
B10  
B11  
SAS_A_SB5  
SAS_A_SB_CTRL_TYP  
E
A12  
A13  
A14  
A15  
A16  
A17  
A18  
B1  
GND  
B12  
B13  
B14  
B15  
B16  
B17  
B18  
A1  
GND  
SAS_RX_C_DP<1>  
SAS_RX_C_DN<1>  
GND  
SAS_TX_C_DP<1>  
SAS_TX_C_DN<1>  
GND  
SAS_RX_C_DP<0>  
SAS_RX_C_DN<0>  
GND  
SAS_TX_C_DP<0>  
SAS_TX_C_DN<0>  
GND  
GND  
GND  
B2  
SAS_TX_C_DP<3>  
SAS_TX_C_DN<3>  
GND  
A2  
SAS_RX_C_DP<3>  
SAS_RX_C_DN<3>  
GND  
B3  
A3  
B4  
A4  
B5  
SAS_TX_C_DP<2>  
SAS_TX_C_DN<2>  
GND  
A5  
SAS_RX_C_DP<2>  
SAS_RX_C_DN<2>  
GND  
B6  
A6  
B7  
A7  
B8  
SAS_A_SB0  
SAS_A_SB1  
A8  
SAS_A_SB_BP_TYPE  
GND  
B9  
A9  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
Controller(or backplane) Connector Pin-  
Out  
Expander Connector Pin-Out  
Pin No Signal  
A10 SAS_A_SB4  
Pin No  
B10  
Signal  
GND  
B11  
B12  
B13  
B14  
B15  
B16  
B17  
B18  
SAS_A_SB_CTRL_TYPE  
GND  
A11  
A12  
A13  
A14  
A15  
A16  
A17  
A18  
SAS_A_SB5  
GND  
SAS_TX_C_DP<1>  
SAS_TX_C_DN<1>  
GND  
SAS_RX_C_DP<1>  
SAS_RX_C_DN<1>  
GND  
SAS_TX_C_DP<0>  
SAS_TX_C_DN<0>  
GND  
SAS_RX_C_DP<0>  
SAS_RX_C_DN<0>  
GND  
Figure 8. SFF8087 to SFF8087 connector cable  
To successfully connect the expander card to supported RAID devices and backplanes,  
additional cables may be needed. They are not shipped with this expander card, but below  
introduction provides detailed pin-out specification, so that users would be able to find  
such cable from market.  
In server chassis non-expander backplane that has SGPIO connector on it, following cable  
is needed: SFF8087 to Four-port Internal Cable with one SGPIO Connector. Check the  
RAID controller/module and server backplane configuration details from  
http://www.intel.com/support/motherboards/server/ in order to get more details of whether  
necessary cables are included and how to configure the cabling. Additional cables may be  
needed depending on different types of initiator and target devices.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
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Table 3. SATA Connector to SFF8087 Connector Pin-out  
Controller Connector  
Expander Connector Pin-Out  
Pin-Out  
Pin No  
P0_1  
Signal  
GND  
Pin No  
A1  
Signal  
GND  
P0_2  
P0_3  
P0_4  
TX+  
TX+  
GND  
A2  
SAS_RX_C_DP<3>  
SAS_RX_C_DN<3>  
GND  
A3  
A4  
B4  
GND  
P0_5  
P0_6  
P0_7  
P1_1  
P1_2  
P1_3  
P1_4  
RX-  
B3  
SAS_TX_C_DN<3>  
SAS_TX_C_DP<3>  
GND  
RX+  
GND  
GND  
TX+  
TX+  
GND  
B2  
B1  
A4  
GND  
A5  
SAS_RX_C_DP<2>  
SAS_RX_C_DN<2>  
GND  
A6  
A7  
B7  
GND  
P1_5  
P1_6  
P1_7  
7
RX-  
RX+  
GND  
NC  
B6  
SAS_TX_C_DN<2>  
SAS_TX_C_DP<2>  
GND  
B5  
B4  
A8  
SAS_A_SB_BP_TYPE  
GND  
5
NC  
A9  
3
NC  
A10  
A11  
B8  
SAS_A_SB4  
SAS_A_SB5  
SAS_A_SB0  
SAS_A_SB1  
GND  
1
NC  
8
NC  
6
NC  
B9  
4
NC  
B10  
B11  
A12  
A13  
A14  
A15  
2
NC  
SAS_A_SB_CTRL_TYPE  
GND  
P2_1  
P2_2  
P2_3  
P2_4  
GND  
TX+  
TX+  
GND  
SAS_RX_C_DP<1>  
SAS_RX_C_DN<1>  
GND  
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
Controller Connector  
Pin-Out  
Expander Connector Pin-Out  
Pin No Signal  
Pin No  
Signal  
B15  
B13  
B12  
A15  
A16  
A17  
A18  
B18  
B17  
B16  
B15  
GND  
P2_6  
RX+  
SAS_TX_C_DP<1>  
GND  
P2_7  
P3_1  
P3_2  
P3_3  
P3_4  
GND  
GND  
TX+  
GND  
SAS_RX_C_DP<0>  
SAS_RX_C_DN<0>  
GND  
TX+  
GND  
GND  
P3_5  
P3_6  
P3_7  
RX-  
SAS_TX_C_DN<0>  
SAS_TX_C_DP<0>  
GND  
RX+  
GND  
Figure 9. SATA Connector to SFF8087 Connector Cable  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
19  
 
Table 4. SFF8087 (with SGPIO) Connector Pin-out  
Expander Connector Pin-Out  
Pin No Signal  
Backplane Connector Pin-Out  
Pin No  
Signal  
A1  
GND  
P0_7  
P0_6  
P0_5  
P0_4  
P0_2  
P0_3  
P0_1  
P1_7  
P1_6  
P1_5  
P1_4  
P1_2  
P1_3  
P1_1  
1
GND  
A2  
SAS_RX_C_DP<3>  
SAS_RX_C_DN<3>  
GND  
SAS_TX_C_DP<0>  
SAS_TX_C_DN<0>  
GND  
A3  
B1  
B2  
SAS_TX_C_DP<3>  
SAS_TX_C_DN<3>  
GND  
SAS_RX_C_DP<0>  
SAS_RX_C_DN<0>  
GND  
B3  
B4  
A4  
GND  
GND  
A5  
SAS_RX_C_DP<2>  
SAS_RX_C_DN<2>  
GND  
SAS_TX_C_DP<1>  
SAS_TX_C_DN<1>  
GND  
A6  
A7  
B5  
SAS_TX_C_DP<2>  
SAS_TX_C_DN<2>  
GND  
SAS_RX_C_DP<1>  
SAS_RX_C_DN<1>  
GND  
B6  
B7  
B8  
SAS_A_SB0  
SAS_A_SB1  
GND  
SGPIO_SCLK  
SGPIO_SLOAD  
SGPIO_GND  
B9  
2
B10  
A9  
4
GND  
A10  
A11  
A8  
SAS_A_SB4  
SAS_A_SB5  
SAS_A_SB_BP_TYPE  
SAS_A_SB_CTRL_TYPE  
GND  
3
SGPIO_SDATAOUT0  
B11  
A12  
A13  
A14  
B12  
B13  
B14  
B15  
P2_7  
P2_6  
P2_5  
P2_4  
P2_2  
P2_3  
P2_1  
GND  
SAS_RX_C_DP<1>  
SAS_RX_C_DN<1>  
GND  
SAS_TX_C_DP<2>  
SAS_TX_C_DN<2>  
GND  
SAS_TX_C_DP<1>  
SAS_TX_C_DN<1>  
GND  
SAS_RX_C_DP<2>  
SAS_RX_C_DN<2>  
GND  
20  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
Expander Connector Pin-Out  
Pin No Signal  
Backplane Connector Pin-Out  
Pin No  
Signal  
A15  
A16  
A17  
A18  
B16  
B17  
B18  
GND  
P3_7  
P3_6  
P3_5  
P3_4  
P3_2  
P3_3  
P3_1  
GND  
SAS_RX_C_DP<0>  
SAS_RX_C_DN<0>  
GND  
SAS_TX_C_DP<3>  
SAS_TX_C_DN<3>  
GND  
SAS_TX_C_DP<0>  
SAS_TX_C_DN<0>  
GND  
SAS_RX_C_DP<3>  
SAS_RX_C_DN<3>  
GND  
Figure 10. SFF8087 (with SGPIO) Connector Cable  
Technical Specifications  
Table 5. Technical Specifications  
®
Specification  
Processor  
Intel RAID Expander Card RES2SV240  
LSI* LSISAS2x24 24-Port Serial Attached SCSI/SATA  
Expander chip  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
21  
     
®
Specification  
Operating voltage  
Intel RAID Expander Card RES2SV240  
+12 V  
Interface to host  
PCI Express* x4 compliant connector only to provide power for  
the expander card. No other PCI Express* signals are used  
SATA bus speed  
SAS/SATA ports  
Firmware  
Upto 6 Gbps per port, point-to-point  
6 x4 internal ports, for both initiator and target devices  
8 MB in reflashable flash ROM  
Compatible devices  
2.5-inch and 3.5-inch SAS 2.0 or SATA drives  
Non disk devices including expanders  
Can support drives of mixed capacity  
SAS 2.0 host controllers (RAID or Non-RAID)  
Enclosure management  
SGPIO  
Performance Features  
Table 6. Performance Features  
®
Specification  
Intel RAID Expander Card RES2SV240  
Drive data transfer rate  
Upto 6 Gigabit/sec per lane  
Maximum queue tags per  
drive  
As many as the drive can accept  
Support for multiple initiators  
Performance  
Yes  
Native command queuing  
Electrical Characteristics  
All power is supplied to the Intel® RAID Expander Card RES2SV240 through the  
standard PCI Express* x4 connector 12 V rails, or a remote RA 4-pin 12V power  
connector.  
The +12 V rail is used by the 3.3 V logic circuitry and also used to generate the other  
required voltage rails of +1.0 V and +1.8 V. The max operation power is 14.6 W.  
Thermal and Atmospheric Characteristics  
The thermal and atmospheric characteristics are:  
Relative humidity range: 20% to 80% non-condensing  
22  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
       
Maximum dew point temperature: 32°C  
Airflow must be at least 200 linear feet per minute (SFPM) to avoid operating above  
the maximum ambient temperature.  
The storage and transit environment conditions are:  
Temperature range from -30°C to 80°C (dry bulb)  
Relative humidity range: 5% to 90% non-condensing  
MTBF (electrical components) number: 300,000 hours at 40°C  
Safety Characteristics  
The Intel® RAID Expander Card RES2SV240 meets or exceeds the requirements of UL  
flammability rating V0. Each bare board is marked with the supplier name or trademark,  
type, and UL flammability rating.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
23  
 
24  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
Appendix A: Installation/Assembly  
Safety Instructions  
As you use your computer system, observe these safety guidelines:  
Do not operate your computer system with any cover(s) (such as computer covers,  
bezels, filler brackets, and front-panel inserts) removed.  
To help avoid damaging your computer, be sure the voltage selection switch on the  
power supply is set to match the alternating current (AC) power available at your  
location.  
To help avoid possible damage to the server board, wait five seconds after turning  
off the system before removing a component from the server board or disconnecting  
a peripheral device from the computer.  
To help prevent electric shock, plug the computer and peripheral power cables into  
properly grounded power sources. These cables are equipped with 3-prong plugs to  
ensure proper grounding. Do not use adapter plugs or remove the grounding prong  
from a cable. If you must use an extension cable, use a 3-wire cable with properly  
grounded plugs.  
To help protect your computer system from sudden, transient increases and  
decreases in electrical power, use a surge suppressor, line conditioner, or  
uninterruptible power supply.  
Be sure nothing rests on your computer system's cables and that the cables are not  
located where they can be stepped on or tripped over.  
Do not spill food or liquids on your computer. If the computer gets wet, consult the  
documentation that came with it.  
Do not push any objects into the openings of your computer. Doing so can cause fire  
or electric shock by shorting out interior components.  
Keep your computer away from radiators and heat sources. Also, do not block  
cooling vents. Avoid placing loose papers underneath your computer; do not place  
your computer in a closed-in wall unit or on a rug.  
When working inside your computer:  
Do not attempt to service the computer system yourself, except as explained in this  
guide and elsewhere in Intel documentation. Always follow installation and service  
instructions closely.  
Turn off your computer and any peripherals.  
Disconnect your computer and peripherals from their power sources. Also  
disconnect any telephone or telecommunications lines from the computer.  
Doing so reduces the potential for personal injury or shock.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
25  
 
Additional safety guidelines:  
When you disconnect a cable, pull on its connector or on its strain-relief loop, not on  
the cable itself. Some cables have a connector with locking tabs; if you are  
disconnecting this type of cable, press in on the locking tabs before disconnect the  
cable. As you pull connectors apart, keep them evenly aligned to avoid bending any  
connector pins. Also, before you connect a cable, make sure both connectors are  
correctly oriented and aligned.  
Handle components and cards with care. Do not touch the components or contacts  
on a card. Hold a card by its edges or by its metal mounting bracket. Hold a  
component such as a microprocessor chip by its edges, not by its pins.  
Protecting against electrostatic discharge  
Static electricity can harm delicate components inside your computer. To prevent  
static damage, discharge static electricity from your body before you touch any of  
your computer's electronic components, such as the microprocessor. You can do so  
by touching an unpainted metal surface, such as the metal around the card-slot  
openings at the back of the computer.  
As you continue to work inside the computer, periodically touch an unpainted metal  
surface to remove any static charge your body may have accumulated. In addition to  
the preceding precautions, you can also take the following steps to prevent damage  
from electrostatic discharge (ESD).  
When unpacking a static-sensitive component from its shipping carton, do not  
remove the component from the antistatic packing material until you are ready to  
install the component in your computer. Just before unwrapping the antistatic  
packaging, be sure to discharge static electricity from your body.  
When transporting a sensitive component, first place it in an antistatic container or  
packaging.  
Handle all sensitive components in a static-safe area. If possible, use antistatic floor  
pads and workbench pads.  
26  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
English  
Read all caution and safety statements in this document before performing any of the  
instructions. See also Intel® Server Boards and Server Chassis Safety Information on the  
Resource CD and/or at  
The power button on the system does not turn off system AC power.  
To remove AC power from the system, you must unplug each AC  
power cord from the wall outlet or power supply.  
The power cord(s) is considered the disconnect device to the main  
(AC) power. The socket outlet that the system plugs into shall be  
installed near the equipment and shall be easily accessible.  
SAFETY STEPS: Whenever you remove the chassis covers to  
access the inside of the system, follow these steps:  
1. Turn off all peripheral devices connected to the system.  
2. Turn off the system by pressing the power button.  
3. Unplug all AC power cords from the system or from wall  
outlets.  
4. Label and disconnect all cables connected to I/O connectors  
or ports on the back of the system.  
5. Provide some electrostatic discharge (ESD) protection by  
wearing an antistatic wrist strap attached to chassis ground of  
the system-any unpainted metal surface-when handling  
components.  
6. Do not operate the system with the chassis covers removed.  
After you have completed the six SAFETY steps above, you can  
remove the system covers. To do this:  
1. Unlock and remove the padlock from the back of the system if  
a padlock has been installed.  
2. Remove and save all screws from the covers.  
3. Remove the cover(s).  
For proper cooling and airflow, always reinstall the chassis covers  
before turning on the system. Operating the system without the  
covers in place can damage system parts. To install the covers:  
1. Check first to make sure you have not left loose tools or parts  
inside the system.  
2. Check that cables, add-in cards, and other components are  
properly installed.  
3. Attach the covers to the chassis with the screws removed  
earlier, and tighten them firmly.  
4. Insert and lock the padlock to the system to prevent  
unauthorized access inside the system.  
5. Connect all external cables and the AC power cord(s) to the  
system.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
27  
 
A microprocessor and heat sink may be hot if the system has been  
running. Also, there may be sharp pins and edges on some board  
and chassis parts. Contact should be made with care. Consider  
wearing protective gloves.  
Deutsch  
Lesen Sie zunächst sämtliche Warn- und Sicherheitshinweise in diesem Dokument, bevor  
Sie eine der Anweisungen ausführen. Beachten Sie hierzu auch die Sicherheitshinweise zu  
Intel-Serverplatinen und -Servergehäusen auf der Ressourcen-CD oder unter  
Der Wechselstrom des Systems wird durch den Ein-/Aus-Schalter  
für Gleichstrom nicht ausgeschaltet. Ziehen Sie jedes  
Wechselstrom-Netzkabel aus der Steckdose bzw. dem Netzgerät,  
um den Stromanschluß des Systems zu unterbrechen.  
Die Stromkabel sind das "Unterbrechungsgerät" zur  
Hauptstromquelle. Die Steckdose, in die das System gesteckt wird,  
sollte sich in der Nähe des Gerätes befinden und leicht zugänglich  
sein.  
SICHERHEITSMASSNAHMEN: Immer wenn Sie die  
Gehäuseabdeckung abnehmen um an das Systeminnere zu  
gelangen, sollten Sie folgende Schritte beachten:  
1. Schalten Sie alle an Ihr System angeschlossenen  
Peripheriegeräte aus.  
2. Schalten Sie das System mit dem Hauptschalter aus.  
3. Ziehen Sie den Stromanschlußstecker Ihres Systems aus der  
Steckdose.  
4. Auf der Rückseite des Systems beschriften und ziehen Sie  
alle Anschlußkabel von den I/O Anschlüssen oder Ports ab.  
5. Tragen Sie ein geerdetes Antistatik Gelenkband, um  
elektrostatische Ladungen (ESD) über blanke Metallstellen  
bei der Handhabung der Komponenten zu vermeiden.  
6. Schalten Sie das System niemals ohne ordnungsgemäß  
montiertes Gehäuse ein.  
28  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
SICHERHEITSMASSNAHMEN: Immer wenn Sie die  
Gehäuseabdeckung abnehmen um an das Systeminnere zu  
gelangen, sollten Sie folgende Schritte beachten:  
1. Schalten Sie alle an Ihr System angeschlossenen  
Peripheriegeräte aus.  
2. Schalten Sie das System mit dem Hauptschalter aus.  
3. Ziehen Sie den Stromanschlußstecker Ihres Systems aus der  
Steckdose.  
4. Auf der Rückseite des Systems beschriften und ziehen Sie  
alle Anschlußkabel von den I/O Anschlüssen oder Ports ab.  
5. Tragen Sie ein geerdetes Antistatik Gelenkband, um  
elektrostatische Ladungen (ESD) über blanke Metallstellen  
bei der Handhabung der Komponenten zu vermeiden.  
6. Schalten Sie das System niemals ohne ordnungsgemäß  
montiertes Gehäuse ein.  
Zur ordnungsgemäßen Kühlung und Lüftung muß die  
Gehäuseabdeckung immer wieder vor dem Einschalten installiert  
werden. Ein Betrieb des Systems ohne angebrachte Abdeckung  
kann Ihrem System oder Teile darin beschädigen. Um die  
Abdeckung wieder anzubringen:  
1. Vergewissern Sie sich, daß Sie keine Werkzeuge oder Teile  
im Innern des Systems zurückgelassen haben.  
2. Überprüfen Sie alle Kabel, Zusatzkarten und andere  
Komponenten auf ordnungsgemäßen Sitz und Installation.  
3. Bringen Sie die Abdeckungen wieder am Gehäuse an, indem  
Sie die zuvor gelösten Schrauben wieder anbringen. Ziehen  
Sie diese gut an.  
4. Bringen Sie die Verschlußeinrichtung (Padlock) wieder an und  
schließen Sie diese, um ein unerlaubtes Öffnen des Systems  
zu verhindern.  
5. Schließen Sie alle externen Kabel und den AC  
Stromanschlußstecker Ihres Systems wieder an.  
Der Mikroprozessor und der Kühler sind möglicherweise erhitzt,  
wenn das System in Betrieb ist. Außerdem können einige Platinen  
und Gehäuseteile scharfe Spitzen und Kanten aufweisen. Arbeiten  
an Platinen und Gehäuse sollten vorsichtig ausgeführt werden. Sie  
sollten Schutzhandschuhe tragen.  
Français  
Lisez attention toutes les consignes de sécurité et les mises en garde indiquées dans ce  
document avant de suivre toute instruction. Consultez Intel® Server Boards and Server  
Chassis Safety Information sur le CD Resource CD ou bien rendez-vous sur le site  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
29  
 
Notez que le commutateur CC de mise sous tension /hors tension  
du panneau avant n'éteint pas l'alimentation CA du système. Pour  
mettre le système hors tension, vous devez débrancher chaque  
câble d'alimentation de sa prise.  
C'est le câble d'alimentation qui est considéré comme le moyen de  
se déconnecter du CA. La prise à laquelle le système est branché  
doit se situer à proximité de l'équipement et être facilement  
accessible.  
CONSIGNES DE SÉCURITÉ -Lorsque vous ouvrez le boîtier pour  
accéder à l'intérieur du système, suivez les consignes suivantes:  
1. Mettez hors tension tous les périphériques connectés au  
système.  
2. Mettez le système hors tension en mettant l'interrupteur  
général en position OFF (bouton-poussoir).  
3. Débranchez tous les cordons d'alimentation c.a. du système  
et des prises murales.  
4. Identifiez et débranchez tous les câbles reliés aux  
connecteurs d'E-S ou aux accès derrière le système.  
5. Pour prévenir les décharges électrostatiques lorsque vous  
touchez aux composants, portez une bande antistatique pour  
poignet et reliez-la à la masse du système (toute surface  
métallique non peinte du boîtier).  
6. Ne faites pas fonctionner le système tandis que le boîtier est  
ouvert.  
Une fois TOUTES les étapes précédentes accomplies, vous pouvez  
retirer les panneaux du système. Procédez comme suit:  
1. Si un cadenas a été installé sur à l'arrière du système,  
déverrouillez-le et retirez-le.  
2. Retirez toutes les vis des panneaux et mettez-les dans un  
endroit sûr.  
3. Retirez les panneaux.  
Afin de permettre le refroidissement et l'aération du système,  
réinstallez toujours les panneaux du boîtier avant de mettre le  
système sous tension. Le fonctionnement du système en l'absence  
des panneaux risque d'endommager ses pièces. Pour installer les  
panneaux, procédez comme suit:  
1. Assurez-vous de ne pas avoir oublié d'outils ou de pièces  
démontées dans le système.  
2. Assurez-vous que les câbles, les cartes d'extension et les  
autres composants sont bien installés.  
3. Revissez solidement les panneaux du boîtier avec les vis  
retirées plus tôt.  
4. Remettez le cadenas en place et verrouillez-le afin de  
prévenir tout accès non autorisé à l'intérieur du système.  
5. Rebranchez tous les cordons d'alimentation c. a. et câbles  
externes au système.  
30  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
Le microprocesseur et le dissipateur de chaleur peuvent être chauds  
si le système a été sous tension. Faites également attention aux  
broches aiguës des cartes et aux bords tranchants du capot. Nous  
vous recommandons l'usage de gants de protection.  
Español  
Lea todas las declaraciones de seguridad y precaucion de este documento antes de realizar  
cualquiera de las instrucciones. Vea Intel® Server Boards and Server Chassis Safety  
Information en el CD Resource y/o en  
Nótese que el interruptor activado/desactivado en el panel frontal no  
desconecta la corriente alterna del sistema. Para desconectarla,  
deberá desenchufar todos los cables de corriente alterna de la  
pared o desconectar la fuente de alimentación.  
Estos cables actúan como dispositivo de desconexión. La toma de  
corriente deberá estar situada cerca del equipo y ser de fácil  
acceso.  
INSTRUCCIONES DE SEGURIDAD: Cuando extraiga la tapa del  
chasis para acceder al interior del sistema, siga las siguientes  
instrucciones:  
1. Apague todos los dispositivos periféricos conectados al  
sistema.  
2. Apague el sistema presionando el interruptor  
encendido/apagado.  
3. Desconecte todos los cables de alimentación CA del sistema  
o de las tomas de corriente alterna.  
4. Identifique y desconecte todos los cables enchufados a los  
conectores E/S o a los puertos situados en la parte posterior  
del sistema.  
5. Cuando manipule los componentes, es importante protegerse  
contra la descarga electrostática (ESD). Puede hacerlo si  
utiliza una muñequera antiestática sujetada a la toma de tierra  
del chasis - o a cualquier tipo de superficie de metal sin pintar.  
6. No ponga en marcha el sistema si se han extraído las tapas  
del chasis.  
Después de completar las seis instrucciones de SEGURIDAD  
mencionadas, ya puede extraer las tapas del sistema. Para ello:  
1. Desbloquee y extraiga el bloqueo de seguridad de la parte  
posterior del sistema, si se ha instalado uno.  
2. Extraiga y guarde todos los tornillos de las tapas.Extraiga las  
tapas.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
31  
 
Para obtener un enfriamiento y un flujo de aire adecuados, reinstale  
siempre las tapas del chasis antes de poner en marcha el sistema.  
Si pone en funcionamiento el sistema sin las tapas bien colocadas  
puede dañar los componentes del sistema. Para instalar las tapas:  
1. Asegúrese primero de no haber dejado herramientas o  
componentes sueltos dentro del sistema.  
2. Compruebe que los cables, las placas adicionales y otros  
componentes se hayan instalado correctamente.  
3. Incorpore las tapas al chasis mediante los tornillos extraídos  
anteriormente, tensándolos firmemente.  
4. Inserte el bloqueo de seguridad en el sistema y bloquéelo  
para impedir que pueda accederse al mismo sin autorización.  
5. Conecte todos los cables externos y los cables de  
alimentación CA al sistema.  
Si el sistema ha estado en funcionamiento, el microprocesador y el  
disipador de calor pueden estar aún calientes. También conviene  
tener en cuenta que en el chasis o en el tablero puede haber piezas  
cortantes o punzantes. Por ello, se recomienda precaución y el uso  
de guantes protectores.  
Italiano  
L'interruttore attivato/disattivato nel pannello anteriore non  
interrompe l'alimentazione in c.a. del sistema. Per interromperla, è  
necessario scollegare tutti i cavi di alimentazione in c.a. dalle prese  
a muro o dall'alimentazione di corrente.  
Il cavo è considerato il dispositivo d'interruzione dell'alimentazione  
principale (in c.a.). La presa alla quale si collega il sistema deve  
essere installata vicino all'unità e deve essere facilmente  
accessibile.  
32  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
 
PASSI DI SICUREZZA: Qualora si rimuovano le coperture del telaio  
per accedere all'interno del sistema, seguire i seguenti passi:  
1. Spegnere tutti i dispositivi periferici collegati al sistema.  
2. Spegnere il sistema, usando il pulsante spento/acceso  
dell'interruttore del sistema.  
3. Togliere tutte le spine dei cavi del sistema dalle prese  
elettriche.  
4. Identificare e sconnettere tutti i cavi attaccati ai collegamenti  
I/O od alle prese installate sul retro del sistema.  
5. Qualora si tocchino i componenti, proteggersi dallo scarico  
elettrostatico (SES), portando un cinghia anti-statica da polso  
che è attaccata alla presa a terra del telaio del sistema -  
qualsiasi superficie non dipinta - .  
6. Non far operare il sistema quando il telaio è senza le  
coperture.  
Dopo aver seguito i sei passi di SICUREZZA sopracitati, togliere le  
coperture del telaio del sistema come seque:  
1. Aprire e rimuovere il lucchetto dal retro del sistema qualora ve  
ne fosse uno installato.  
2. Togliere e mettere in un posto sicuro tutte le viti delle  
coperture.  
3. Togliere le coperture.  
Per il giusto flusso dell'aria e raffreddamento del sistema, rimettere  
sempre le coperture del telaio prima di riaccendere il sistema.  
Operare il sistema senza le coperture al loro proprio posto potrebbe  
danneggiare i componenti del sistema. Per rimettere le coperture del  
telaio:  
1. Controllare prima che non si siano lasciati degli attrezzi o dei  
componenti dentro il sistema.  
2. Controllare che i cavi, dei supporti aggiuntivi ed altri  
componenti siano stati installati appropriatamente.  
3. Attaccare le coperture al telaio con le viti tolte in precedenza e  
avvitarle strettamente.  
4. Inserire e chiudere a chiave il lucchetto sul retro del sistema  
per impedire l'accesso non autorizzato al sistema.  
5. Ricollegare tutti i cavi esterni e le prolunghe AC del sistema.  
Se il sistema è stato a lungo in funzione, il microprocessore e il  
dissipatore di calore potrebbero essere surriscaldati. Fare  
attenzione alla presenza di piedini appuntiti e parti taglienti sulle  
schede e sul telaio. È consigliabile l'uso di guanti di protezione.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
33  
34  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
Appendix B: Regulatory and Certification  
Information  
Product Safety and EMC Compliance  
This Intel® Expander Card has been evaluated for regulatory compliance as an Intel  
end system, and is included as part of the end system certification. For information  
on end system certification, refer to the product regulatory certification for the end  
system level product.  
Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  
35  
   
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Intel® RAID Expander Card RES2SV240 Hardware User’s Guide  

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