Sun Netra™ CP3000 Advanced Mezzanine Card PCIe Hard Drive and SAS Controller User’s Guide for the AMC.1-HDD SAS Disk Sun Microsystems, Inc. www.sun.com Part No. 820-7175-11 March 2010, Revision A Submit comments about this document at: http://www.sun.
Copyright © 2010 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, California 95054, U.S.A. All rights reserved. Sun Microsystems, Inc. has intellectual property rights relating to technology embodied in the product that is described in this document. In particular, and without limitation, these intellectual property rights may include one or more of the U.S. patents listed at http://www.sun.com/patents and one or more additional patents or pending patent applications in the U.S.
Contents Preface 1. vii Getting Started 1.1 1–1 System Requirements 1–2 1.1.1 Operating Systems Compatibility 1.1.2 Chassis Compatibility 1.1.3 Blade Server Compatibility 1.1.4 Electrical and Environmental 1.2 Unpacking 1.3 Handling AMCs 1.4 AMC Faceplate 1.5 AMC LEDs 1.6 Removing and Installing AMCs 1–2 1–2 1–2 1–3 1–3 1–4 1–5 1–6 1–8 1.6.1 Removing an AMC 1–8 1.6.2 Removing a Blade Server and AMC 1.6.
1.7 2. 3. iv Enabling and Disabling SAS Ports 1–18 ▼ To Enable AMC Port 2 (Driven by Port 1 of SAS Controller) 18 ▼ To Enable AMC Port 3 (Driven by Port 2 of SAS Controller) 18 ▼ To Disable AMC Port 2 (Driven by Port 1 of SAS Controller) 19 ▼ To Disable AMC Port 3 (Driven by Port 2 of SAS Controller) 19 Overview 2–1 2.1 Features 2–2 2.2 Key Components 2–3 2.2.1 Hard Drive Disk 2–3 2.2.2 Power Regulator 2–3 2.2.3 SAS Controller 2.2.4 Flash 2.2.
4. Configuring the AMC 4–1 4.1 Configuration Tools 4.2 Boot BIOS Utility 4–2 4–2 4.2.1 Features and Configurations 4–3 4.2.2 Launching the Boot BIOS Utility 4–3 4.3 OpenBoot BIOS 4–5 4.4 Extensible Firmware Interface (EFI) BIOS 4.5 Enabling and Disabling Channel Ports A. Connectors and Ports 4–6 A–1 A.1 Connector Locations and Assignments A.2 Connector Pinouts A.3 SAS Controller Ports A.4 e-Keying Ports A–4 A–5 B–1 Electrical and Environmental B–2 B.1.1 Electrical B.1.
C.5 Index vi C.4.1 EN 55022 Emissions C–4 C.4.2 EN 55024 Immunity C–4 Regulatory Information C–5 C.5.1 FCC (USA) C–5 C.5.
Preface The Netra™ CP3000 Advanced Mezzanine Card PCIe Hard Drive and SAS Controller User’s Guide describes the installation and configuration of the Sun Netra CP3000 AMC.1-HDD SAS disk. This guide also includes information about software, environment specifications, connectors, and certifications. Typographic Conventions Typeface Meaning Examples AaBbCc123 The names of commands, files, and directories; on-screen computer output Edit your.login file. Use ls -a to list all files. % You have mail.
Related Documentation The following table lists the documentation for the AMC.1-HDD SAS disk. The online documentation is available at: http://docs.sun.com/app/docs/prod/cp3000.
Sun Welcomes Your Comments Sun is interested in improving its documentation and welcomes your comments and suggestions. You can submit your comments by going to: http://www.sun.com/hwdocs/feedback Please include the title and part number of your document with your feedback: Sun Netra CP3000 Advanced Mezzanine Card PCIe Hard Drive and SAS Controller User’s Guide, part number 820-7175-11.
x Sun Netra CP3000 Advanced Mezzanine Card PCIe Hard Drive and SAS Controller User’s Guide • March 2010
CHAPTER 1 Getting Started This chapter provides information and procedures needed to install and make the Sun Netra CP3000 AMC.1-HDD SAS disk operational. This chapter should be read before unpacking and installing the AMC. In addition to this chapter, refer to the following safety document: Important Safety Information for Sun Hardware Systems (816-7190) Caution – When the system is plugged in, energy hazards are present on the midplane. Do not reach into the enclosure while the power is on.
1.1 System Requirements The following sections briefly describe the minimum system requirements and the configurable features. Links are provided to other chapters and appendixes containing more detailed information. 1.1.1 Operating Systems Compatibility The following operating systems are compatible with the AMC.1-HDD SAS disk. 1.1.2 ■ Solaris™ 10 ■ Solaris x86 10 ■ Windows Server 2003 ■ Red Hat Enterprise Linux (RHEL) 5 Chassis Compatibility Before using this AMC.
1.1.4 Electrical and Environmental See Appendix B for electrical and environmental requirements. Caution – None of the integrated chips junction temperature should exceed 125˚C. The AMC requires air flow to meet this requirement. Testing should be done in the shelf to find the quantity of air flow needed. The recommended minimum air flow is 50 LFM. 1.2 Unpacking Check the shipping carton for damage. If the shipping carton or contents are damaged, notify the carrier and Sun.
1.3 Handling AMCs Caution – The system is sensitive to static electricity. To prevent damage to the assembly, always connect an antistatic wrist strap between you and the system. Avoid touching areas of integrated circuitry. Static discharge can damage these circuits. An antistatic wrist strap and a conductive foam pad is strongly recommend for handling AMCs when installing or upgrading a system.
1.4 ■ Do not use an oscilloscope probe on the components. The soldered pins are easily damaged or shorted by the probe point. ■ Transport an AMC in an antistatic bag. AMC Faceplate The following shows the faceplate of the Sun Netra CP3000 AMC.1-HDD SAS disk. FIGURE 1-1 AMC.1-HDD SAS Disk Faceplate Note – The AMC is available in different capacities (in gigabytes). The illustration shows a generic faceplate. For your product’s faceplate, the xxx denotes the capacity.
1.5 AMC LEDs The following tables give status information for all of the LEDs on the AMC. TABLE 1-1 describes the LEDs defined by ATCA to monitor board status. TABLE 1-1 AMC Status LEDs LED Color State Description Hot-swap Blue On Management power is available to the AMC, and the AMC can safely be extracted. Off The AMC is operational and is unsafe for extraction. Long blink Delay before AMC is activated. Short blink Delay before AMC is deactivated. Off AMC is in service.
TABLE 1-2 Hot-Swap BLUE LED States Order Visible State State Description 1 Solid M1 FRU Inactive The Intelligent Platform Management Interface (IPMI) microcontroller is booted, but the payload is not. The bottom latch is not fully closed or the activation lock bit set is keeping AMC from activating. 2 Blinking (from solid) M2 Activation Request The bottom latch is closed or activation lock bit has been cleared.
1.6 Removing and Installing AMCs This section describes how to remove and install AMCs. The AMC.1-HDD SAS disk can be installed into an ATCA shelf (chassis) with sites that support AMC.1 PCI Express signaling. The site height must properly match the panel height fitted to the AMC. At the time of publication of this document, the AMC.1-HDD SAS disk is qualified and supported on the following Sun blade servers: 1.6.
Note – Depending on how the Shelf controls deactivation, the Shelf might not initiate deactivation when you disengage the ejector latch. If so, either configure the Shelf to allow deactivation via latch opening or deactivate by other methods. 4. For the AMC, initiate the hot-swap deactivation sequence by pulling the injector/ejector latch out half way (FIGURE 1-2). The Hot-Swap LED starts blinking. 5. Wait until the Hot-Swap LED is solid blue. 6.
FIGURE 1-2 Deactivating the AMC Figure Legend 1 Fully In (IN) When IN, the module communicates to the shelf manager that the module is not in the hot-swap state, and the shelf manager communicates with the MMC. This position is for normal operation. 2 Half Way (HW) When in the HW position, the hot-swap sequence is initiated. The MMC sends a hot-swap event to the shelf manager. 3 1-10 Out (OUT) When OUT, the latching mechanism is released and the module can be extracted.
7. Remove the AMC. FIGURE 1-3 Removing the AMC 8. Replace the AMC with another AMC (FIGURE 1-7) or install a filler panel. Note – Be sure to follow handling instructions. See Section 1.3, “Handling AMCs” on page 1-4.
Caution – Failure to fill all slots with AMCs or cover with filler panels can negatively impact the cooling of the system. 1.6.2 Removing a Blade Server and AMC Following are the instructions for removing a blade server and installed AMC. For additional information, refer to your blade server documentation. Caution – Before removing a blade server and AMC, read all cautions, warnings, and instructions presented earlier in this chapter. 1.
Note – Depending on how the Shelf controls deactivation, the Shelf might not initiate deactivation when you disengage the ejector latch. If so, either configure the Shelf to allow deactivation via latch opening or deactivate by other methods. 3. Disconnect all cables connected to the switch. 4. Loosen the two board retention screws that fasten the board to the enclosure. 5. Open the ejectors fully, rotating the handles outward until the board disengages from the midplane. 6.
3. Obtain the AMC card from the ship kit. Note – Be sure to follow unpacking and handling instructions. See Section 1.2, “Unpacking” on page 1-3 and Section 1.3, “Handling AMCs” on page 1-4. FIGURE 1-5 Sample Top View Note – The illustration shows a sample of the top view for a 146GB AMC. If your AMC has a different capacity, the label shows it. 4. Perform any card-specific hardware procedures, if necessary. 5. Prepare the AMC by fully opening its injector/ejector latches to the OUT position.
FIGURE 1-6 Opening the Injector/Ejector Latch Figure Legend 1 Fully In (IN) When IN, the module communicates to the shelf manager that the module is not in the hot-swap state, and the shelf manager communicates with the MMC. This position is for normal operation. 2 Half Way (HW) When in the HW position, the hot-swap sequence is initiated. The MMC sends a hot-swap event to the shelf manager. 3 Out (OUT) When OUT, the latching mechanism is released and the module can be extracted.
6. Carefully align the edges of the AMC with the guides in the appropriate site. It might be helpful to look into the enclosure to verify correct alignment of the rails in the guides. Caution – Do not force the AMC into the site. If it does not fit properly, check to ensure that you have the correct matching AMC for the switch. 7. Keeping the AMC aligned in the guides, slide it in by pressing on the AMC faceplate until the AMC faceplate is flush with the blade server faceplate.
FIGURE 1-7 Inserting the AMC Into a Blade Server 8. Push the ejector latch in fully. If system power is on and AMC is installed properly, the AMC board Hot-Swap LED lights up. The Hot-Swap LED blinks for several seconds, then goes off. If the Hot-Swap LED does not go off after several seconds, push firmly on the injector/ejector handles to ensure that they are pushed in all the way.
Caution – Failure to fill all slots with AMCs or cover with filler panels can negatively impact the cooling of the system. 9. Power on the system, if necessary. Refer to your system manual for instructions on correctly powering on the system. After power is applied to the chassis, the internal MMC controller runs a self-test that runs for approximately 10 seconds.
Note – This utility has many other uses and adjustable values. Parameter adjustments are permanently committed to flash memory, and affect future behavior of the AMC. Only advanced users who fully understand the technical implications should modify parameters. A full description of parameters and functions is in LSIUtil Configuration Utility User’s Guide, published by LSI.
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CHAPTER 2 Overview This chapter introduces the key features of the AMC. This chapter includes a product definition, a list of product features, and functional block diagrams with brief descriptions. This chapter can be used to compare the features of the AMC against the needs of a specific application. This chapter contains the following topics: ■ Section 2.1, “Features” on page 2-2 ■ Section 2.2, “Key Components” on page 2-3 ■ Section 2.3, “Faceplate and LEDs” on page 2-5 ■ Section 2.
2.1 Features Part of Sun’s ATCA platform, the Sun Netra CP3000 AMC.1-HDD SAS disk complies with PICMG 3.0 AdvancedTCA Specification R2.0 ECN002 and the following specifications: ■ PICMG AMC.0 Rev. 2.0 ■ AMC.1 Revision 1, PCI Express option ■ AMC.3 Revision 1, storage signaling option The AMC.1-HDD SAS disk is an Advanced Mezzanine Card (AMC) that integrates both an SAS hard drive disk and a x4 PCIe SAS controller.
■ 2.2 Support for SATA, as defined in the Serial ATA Specification, version 1.0a. Key Components The following figure and sections describe key components of the Sun Netra CP3000 AMC.1-HDD SAS disk. FIGURE 2-1 2.2.1 Top-Level AMC Layout Hard Drive Disk The Sun Netra CP3000 AMC.1-HDD SAS disk provides a single SAS hard drive, with various capacity options available. When you order the product, choose the part number corresponding to the capacity (in gigabytes) that you want. 2.2.
2.2.3 SAS Controller The AMC.1-HDD SAS disk incorporates a PCIe-to-SAS host controller manufactured by LSI Corporation, device model LSI-SAS1064E. The controller provides host access to SAS and SATA disks. The controller features four lanes of PCI Express (2.5 gigabits per second each), and four lanes of SAS (3.0 gigabits per second each). The SAS firmware for the LSI SAS supports the following: 2.2.4 ■ 3 gigabits per second SAS and SATA transfers ■ Device discovery ■ Both 3.0 gigabit and 1.
2.2.6 ■ e-Keying as described in the AMC.0 specification ■ FRU information ■ LED indicators for hot-swap and OOS (out of service) Port Connectors The AMC includes connectors to communicate with the host board and take its interfaces outside the ATCA chassis. Refer to Appendix A for complete connector descriptions and pin-outs. 2.2.7 LEDs The AMC.1-HDD SAS disk has three LEDs. See the next section for a detailed description of the LEDs. 2.3 Faceplate and LEDs The faceplate of the AMC.
Figure Legend 1 2 Indicator Color State Description and Function OOS Red On Out of Service: fault set by shelf manager, or 12V payload power not detected. Off No module fault. 12V payload power is being supplied to board. On Module in service. 12V payload power is being supplied to board. Off 12V payload power is not detected. On Management power available to the module; AMC can be safely extracted. Off The module is operational and is unsafe for extraction.
2.4 Functional Diagram FIGURE 2-3 2.5 AMC SAS-HDD Functional Block Diagram Technical Support and Warranty If you have any technical questions or support issues that are not addressed in the Sun Netra CP3000 Advanced Mezzanine Card PCIe Hard Drive and SAS Controller documentation set or on the web site, contact your local Sun Services representative. This hardware carries a one-year return-to-depot warranty. For customers in the US or Canada, call 1-800-USA-4SUN (1-800-872-4786).
When you call Sun Services, indicate if the Sun Netra CP3000 AMC.1-HDD SAS disk was purchased separately and is not associated with a system. Have the proper AMC identification information ready. Be prepared to give the representative the AMC part number, serial number, and date code (FIGURE 2-4). 2.6 Part Number, Serial Number, and Revision Number Identification The Sun Netra CP3000 AMC.1-HDD SAS disk part number, serial number, and revision can be found on labels located on the card (FIGURE 2-4).
FIGURE 2-4 Sun Netra CP3000 AMC.
Figure Legend 4 Sun Product Label: • SUN S/N Format • Sun Part Number 2.7 5 SAS WWN = SAS World Wide Name 6 Safety label Disposal The AMC might contain materials that require regulation upon disposal. Please dispose of this product in accordance with local rules and regulations. For disposal or recycling information, please contact your local authorities or the Electronic Industries Alliance at http://www.eiae.org/.
CHAPTER 3 Managing the AMC This chapter describes the AMC management software. The Sun Netra CP3000 AMC.1-HDD SAS disk includes an IPMI-based Module Management Controller (MMC) that meets all requirements set out in the PICMG AMC.0 specification. The MMC allows detection of the module by the carrier board and manages communication between the AMC.1-HDD SAS disk and management controllers on the carrier board and system level.
3.1 Monitoring and Control Functions The MMC is responsible for communicating module status information to the carrier board, and also has some control at the module level. The 10GbE local PHY is held in reset until the AMC Carrier IPMI uses e-Keying to turn on the interface (to ensure that the interface is compatible). The MMC has the ability to reset the PHY through the IPMI FRU Control command. 3.2 IPMI Controller The IPMI controller consists of a 16-bit microcontroller, flash, and SRAM.
TABLE 3-1 Supported IPMI Commands (Continued) Get Device SDR 29.3 S/E 21h Mandatory Reserve Device SDR Repository 29.4 S/E 22h Mandatory Get Sensor Reading Factors 29.5 S/E 23h Optional Set Sensor Hysteresis 29.6 S/E 24h Optional Get Sensor Hysteresis 29.7 S/E 25h Optional Set Sensor Threshold 29.8 S/E 26h Optional Get Sensor Threshold 29.9 S/E 27h Optional Set Sensor Event Enable 29.10 S/E 28h Optional Get Sensor Event Enable 29.
3.3 FRU Information Board information such as serial number, date of manufacture, OEM name, part number, and so on is retrievable from the FRU EEPROM integrated into the MMC. FRU information stored onboard the AMC.1-HDD SAS disk complies with the PICMG 2.9 specification. The AMC.1-HDD SAS disk includes the standard FRU data records per the IPMI Platform Management FRU Information Storage Definition, Board Info Area. The AMC.1-HDD SAS disk includes additional FRU records as defined in the PICMG 2.
3.4 Sensors The AMC.1-HDD SAS disk module management is connected to sensors monitoring key board voltages and temperatures. Data records from the following sensors are accessible using IPMI commands: ■ Hot-swap ■ +12V payload power ■ +3.3V management power ■ Board and inlet temperature ■ +1.2V onboard voltage (generated from payload) ■ +3.
3.
CHAPTER 4 Configuring the AMC This chapter describes how to configure the AMC using the SAS Boot BIOS Configuration Utility, the OpenBoot™ BIOS, and the Extensible Firmware Interface (EFI) Boot Services Driver. This chapter contains the following topics: ■ Section 4.1, “Configuration Tools” on page 4-2 ■ Section 4.2, “Boot BIOS Utility” on page 4-2 ■ Section 4.3, “OpenBoot BIOS” on page 4-5 ■ Section 4.4, “Extensible Firmware Interface (EFI) BIOS” on page 4-6 ■ Section 4.
4.1 Configuration Tools The configuration tools are preloaded on a flash ROM device embedded on the AMC. A MicroTCA or host carrier CPU can read the code to facilitate booting from SAS drives. The BIOS contains an embedded configuration manager, which you use to configure RAID or other adapter options prior to OS boot. The BIOS integrates with a standard system BIOS, extending the standard disk-service routine provided through INT13h. Three types of BIOS are available for the AMC.
4.2.1 Features and Configurations The Boot BIOS supports the following: 4.2.2 ■ Using multiple AMC.1 SAS modules ■ Applying global properties stored in flash ■ Selecting and configure up to 256 adapters ■ Automatic INT13 drive mapping for SAS drives ■ SAS topology discovery, including expander traversal ■ Applying PHY transceiver properties Launching the Boot BIOS Utility Note – Not all devices detected by the utility can be controlled by the BIOS.
FIGURE 4-1 Boot BIOS Main Menu The menu displays a scrolling list of all the AMC SAS modules visible in the system, with PCI Express (PCIe) identification information. 3. Use the arrow keys to highlight the AMC module you want to configure. 4. Press ENTER to display the next screen. The Adaptor Properties menu is displayed, where you can view and modify AMC parameters. This menu provides the top-level view of AMC status and configurable parameters.
FIGURE 4-2 Adapter Properties Menu 5. Using the arrow keys, select the item of interest. 6. Press ENTER to display the next screen. 4.3 OpenBoot BIOS For information about the OpenBoot BIOS, refer to the Sun Solaris OS and SPARC documentation. The documentation is available at the following site: http://www.sun.
4.4 Extensible Firmware Interface (EFI) BIOS The AMC.1-HDD SAS disk includes an EFI boot services driver for use with ATCA blades that feature Intel® IA64 processors. Additional information is available at http://www.lsi.com. 4.5 Enabling and Disabling Channel Ports As shipped from the factory, the AMC.1-HDD SAS disk will not drive AMC channel ports, due to the default “disable” setting. You can enable these ports using lsiutil, a command line utility. For instructions, see Section 1.
APPENDIX A Connectors and Ports This appendix describes the connectors and ports you can use to communicate with the host board and application-specific devices. A brief description of each connector and port is given, and a detailed description and pinout given for each connector. This appendix contains the following topics: ■ Section A.1, “Connector Locations and Assignments” on page A-2 ■ Section A.2, “Connector Pinouts” on page A-2 ■ Section A.
A.1 Connector Locations and Assignments This module is AMC.1 and AMC.3 compliant and can use ports 2 and 3, as defined in the AMC.3 specification. Callout A.2 Port Function 1 2 AMC.3 Serial Storage Port 2 2 3 AMC.3 Serial Storage Port 3 3 4 AMC.1 PCI Express lane 0 4 5 AMC.1 PCI Express lane 1 5 6 AMC.1 PCI Express lane 2 6 7 AMC.1 PCI Express lane 3 Connector Pinouts The AMC.
TABLE A-1 Pin Assignments (Continued) 9 12V 54 'PCIe_RX1_N' 99 No Connect 144 No Connect 10 GND 55 GND 100 No Connect 145 No Connect 11 No Connect 56 'IPMI_SCL_L' 101 GND 146 GND 12 No Connect 57 12V 102 No Connect 147 No Connect 13 GND 58 GND 103 No Connect 148 No Connect 14 No Connect 59 'PCIe_TX2_P' 104 GND 149 GND 15 No Connect 60 'PCIe_TX2_N' 105 No Connect 150 No Connect 16 GND 61 GND 106 No Connect 151 No Connect 17 GA1 62 'PCIe_RX2
TABLE A-1 Pin Assignments (Continued) 40 GND 85 GND 130 No Connect 41 'AMC_ENABLE_L' 86 GND 131 GND 42 12V 87 No Connect 132 No Connect 43 GND 88 No Connect 133 No Connect 44 'PCIe_TX0_P' 89 GND 134 GND 45 'PCIe_TX0_N' 90 No Connect 135 No Connect A.3 SAS Controller Ports The AMC.1-HDD SAS disk incorporates four dedicated SAS controller ports as follows.
A.4 e-Keying Ports The AMC.1-HDD SAS disk connects up to two SAS ports on the AMC connector. These ports are defined by the AMC.3 specification for serial storage. The module designates four PCI Express ports, per AMC.1 specification. The link type and link type extension are defined in the following table. TABLE 0-1 Port # AMC e-Keying Port Assignments Port Name Link Type AMC Port Map Region 0 Unused 1 Unused 2 Channel 0 Link type 7 = AMC.
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APPENDIX B Environment Specifications This appendix describes the electrical, environmental, and mechanical specifications. It includes illustrations of the board dimensions. This appendix contains the following topics: ■ Section B.1, “Electrical and Environmental” on page B-2 ■ Section B.2, “Reliability” on page B-4 ■ Section B.
B.1 Electrical and Environmental The following sections provide tables and illustrations showing the electrical and environmental specifications. B.1.1 Electrical The AMC.1-HDD SAS disk shall consume no more than the following from the system supplies under normal operating conditions. TABLE B-1 B.1.2 Electrical Specifications SUPPLY SAS (Max Management power Less than 100 mA +12V (spin up less than 8 secs) 1.5A (18W) +12V normal operating 1.0A (12W) +12V (idle) 0.
TABLE B-2 Environmental Specifications (Continued) Vibration Shock Altitude Performance TABLE B-3 Operating 1 G (20 to 300 Hz) Nonoperating 5 G (20 to 300 Hz) Operating 100 G/1ms duration Nonoperating 400 G/1ms duration Operating –1,000 to +10,000 feet Nonoperating –1,000 to +40,000 feet RPM 10,025 rpm Seek time avg Read/write 4.5 m/s (typical) Seek time max Read/write 9.0m/s (typical) Interface SAS 3.0 Gb MTBF See the following table.
B.1.3 Absolute Maximum Ratings The following values are stress ratings only. Do not operate at these maximums. See Section B.1.4, “Normal Operating Ranges” on page B-4 for normal operating conditions. B.1.4 Payload voltage, +12V 0 VDC to +13.2 VDC Management voltage, +3.3V 3.135 VDC to +3.465 VDC Storage temperature –40 to +70˚ Celsius Noncondensing relative humidity 5% to 95% at 29˚ Celsius Normal Operating Ranges Description Range Nominal operating voltage +10.8 to +13.2 VDC payload power 3.
B.3 Mechanical This section includes the mechanical specifications for dimensions and weight. The AMC.1-HDD SAS disk meets the PICMG 3.0 AdvancedTCA Specification R2.0 ECN002 and AMC.0 R2.0 for all mechanical parameters. B.3.1 Board Dimensions and Weight The AMC.1-HDD SAS disk is 181.5 mm by 73.5mm and conforms to the component height requirements of a mid-size module and can be configured as a full-size module. PCI Express x4 connections are made through the AMC edge fingers. The AMC.
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APPENDIX C Agency Certifications This appendix lists standards agencies and the certifications related to the Sun Netra CP3000 AMC.1-HDD SAS disk. This product was tested in an EMC-compliant chassis and meets the requirements for EN55022 Class A equipment.
C.1 CE Certification The Sun Netra CP3000 AMC.1-HDD SAS disk meets the intent of Directive 89/336/EEC for Electromagnetic Compatibility [EN55024:1998, EN55022:2006] and Low-Voltage Directive 73/23/EEC for Product Safety [EN60950-1:2001]. A certificate of incorporation is available upon request. The final system configuration must be reconsidered as a whole per these directives. C.2 NEBS/ETSI The Sun Netra CP3000 AMC.
C.
C.4 C.4.1 C.4.2 C-4 Emissions Test Regulations ■ FCC Part 15, Subpart B Class A Commercial Equipment ■ Industry Canada ICES-003:2004 Class A Commercial Equipment ■ CISPR 22/EN 55022:2006 Class A Radiated, Power line Conducted ■ VCCI, Japanese V-3/2007.
C.5 Regulatory Information Caution – If you make any modification to the AMC not expressly approved by Sun, you could void your warranty and/or regulatory authority to operate the component. C.5.1 FCC (USA) This product has been tested and found to comply with the limits for a Class A 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 a commercial environment.
1. Ce dispositif peut ne pas causer l'interférence nocive. 2. Ce dispositif doit accepter n'importe quelle interférence reçue, y compris l'interférence qui peut causer l'opération peu désirée.
Index 10GbE local PHY, 3-2 Electronic Industries Alliance, 2-10 energy hazards, 1-1 A F absolute maximum ratings, B-4 AMC flexing, preventing, 1-4 antistatic bag, 1-3 faceplate, 1-5 failure status LEDs, controlling, 2-4 features, 2-2 filler panels, 1-12 firmware, upgrading, 3-6 FRU information, 3-4 FRU information, storing, 2-4 functional block diagram, 2-7 Numerics B board status, 1-6 board voltages, monitoring, 2-4 C cable management bracket lowering, 1-12 cable management bracket, lowering, 1-12
M MAC address label, 2-8 management voltage, B-4 maximum power consumption, B-4 Module Management Controller (MMC), 2-4, 3-1 module status, 3-2 support, 2-7 switches, LEDs, 1-6 system requirements, 1-2 T Telcordia Industrial Reliability program, B-4 temperature, max for integrated chips, 1-3 temperature, monitoring, 2-4 N NEBS/ETSI, C-2 nominal operating voltage, B-4 noncondensing relative humidity, B-4 normal operating ranges, B-4 U O warranty, 2-7 wrist strap, 1-3 OK LED, 1-6 OOS LED, 1-6 open slot
