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1U Server Chassis SR1300

Technical Product Specification

Intel order number A94544-004

Revision 1.2

June, 2003

Enterprise Platforms and Services Marketing

Summary of content (79 pages)

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U Server Chassis SR1300 Technical Product Specification Intel order number A94544-004 Revision 1.
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Revision History 1U Server Chassis SR1300 Revision History Date January, 2002 Revision Number 0.2 Modifications Initial creation April, 2002 0.5 Minor updates and preliminary release August, 2002 1.0 Minor updates and release January, 2003 1.1 Added server board SE7501WV2. Corrections made to page 5 & 12 voltage range; 49-P64-B Speed. June, 2003 1.2 Made corrections to section 6 – Hot Swap SCSI Backplane – remove reference to dul-mode SE device support. Revision 1.
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1U Server Chassis SR1300 Disclaimers Disclaimers Information in this document is provided in connection with Intel® products. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document.
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Table of Contents 1U Server Chassis SR1300 Table of Contents 1. SR1300 Feature Summary ................................................................................................... 1 1.1 Chassis Views ................................................................................................................. 1 1.2 Chassis Dimensions ........................................................................................................ 2 1.3 System Components .............................
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1U Server Chassis SR1300 6. 7. Table of Contents 5.1 Front Panel Buttons and Intrusion Switch...................................................................... 20 5.2 Front Panel Assembly Connectors ................................................................................ 21 5.3 Front Panel System Status LED Indicators ................................................................... 24 5.3.1 Power / Sleep LED...........................................................................
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Table of Contents 1U Server Chassis SR1300 7.2.6 ATA100 Connectors................................................................................................. 44 7.2.7 Power Connector ..................................................................................................... 45 7.2.8 ATA100 Interface to Drive........................................................................................ 45 8. Floppy/CDROM and Floppy/DVDROM Module Interface Assemblies.........................
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1U Server Chassis SR1300 List of Figures List of Figures Figure 1. Front and Rear Chassis Views ...................................................................................... 1 Figure 2. System Components ..................................................................................................... 2 Figure 3. Chassis Back ................................................................................................................. 3 Figure 4. Chassis Front...............................
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List of Tables 1U Server Chassis SR1300 List of Tables Table 1. Chassis Dimensions ....................................................................................................... 2 Table 2. Power Supply Edge Connector Slot Pinout .................................................................... 8 Table 3. 24-pin Baseboard Power Connector Pinout.................................................................... 9 Table 4. 8-pin Baseboard Power Connector Pinout...................................
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1U Server Chassis SR1300 List of Tables Table 33. System Office Environment Summary ........................................................................ 60 Table 34. SR1300/SE7500WV2 Component MTBF Numbers.................................................... 63 Table 35. SR1300/SE7501WV2 Component MTBF Numbers.................................................... 63 Revision 1.
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List of Tables 1U Server Chassis SR1300 < This page intentionally left blank. > Revision 1.
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1U Server Chassis SR1300 1. SR1300 Feature Summary SR1300 Feature Summary The server chassis SR1300 is a 1U server chassis designed to support the Intel® server boards SE7500WV2 and SR7501WV2. Both board and chassis have a feature set that is designed to support the high-density server market. This specification details the specific feature set of the Intel server chassis SR1300. 1.1 Chassis Views Front view with bezel Front view without bezel Rear view Figure 1.
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SR1300 Feature Summary 1.2 1U Server Chassis SR1300 Chassis Dimensions Table 1. Chassis Dimensions Height 43 mm Width 430 mm 16.93 Inches Depth 609.2 mm 23.89 Inches 1.3 System Components A B C D E Power supply PCI card bracket (full-length) Riser card assembly PCI card bracket (low-profile) Server board (accessory to system) F G Power distribution board Air baffle 1.
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1U Server Chassis SR1300 1.4 SR1300 Feature Summary Chassis Back I/O Ports and Features On the back of the chassis are cutouts for all external I/O connectors found on the server boards SE7500WV2 and SE7501WV2. The I/O connector locations are pre-cut, so the use of an I/O shield is not required.
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SR1300 Feature Summary 1.5.1 1U Server Chassis SR1300 Front Panel Controls and Indicators The front panel controls and indicators are shown below with an optional CDROM (or DVD) drive/floppy disk drive installed.
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1U Server Chassis SR1300 1.5.2 A B C D E SR1300 Feature Summary Peripheral Bays Hard drive bays Flex bay Slimline CD-ROM drive/floppy or DVD/floppy drive module Hard disk drive (Only in SCSI Backplane configuration) Hard disk drive Figure 6. Optional Peripherals 1.6 Power Supply The power supply is rated for 350 watts of power at the following voltages: • • 90-132VAC (V) ∼ at 50/60 Hertz (Hz); 4.96 Ampere (A) maximum (max) 180-264VAC∼ at 50/60 Hz; 2.
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SR1300 Feature Summary 1.8 1U Server Chassis SR1300 Chassis Security To help prevent unauthorized access to the system’s peripherals and control panel, an optional key-locked front bezel can be used. The chassis also includes a preinstalled intrusion switch that can be monitored by server management software. When the cover is opened, the switch, located on the front panel board, transmits a signal to the Baseboard Management Controller (BMC) on the server board.
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1U Server Chassis SR1300 Power Sub-system 2. Power Sub-system 2.1 Power Distribution Board (PDB) The server chassis SR1300 provides a power distribution board, eliminating the use of cables for power distribution to various system components. The power distribution board provides connectors to allow both the power supply and the baseboard to be plugged directly into it.
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Power Sub-system 2.1.1 1U Server Chassis SR1300 Power Supply Edge Connector Slot An AMP* 1364999-1, or equivalent type of slot connector, is used to plug a blind mating edge connector from the power supply. The following table provides the pin-out for the slot connector. Table 2.
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1U Server Chassis SR1300 Pin Signal Power Sub-system Description Signal direction with respect to connector on PDB 25 Gnd 26 5V Input to PDB 27 5V Input to PDB 28 5V Input to PDB 29 3.3V Input to PDB 30 3.3V Input to PDB 31 3.3V Input to PDB 2.1.2 Ground Baseboard Connector (1) A 24-pin Molex* 15-24-7241 connector on the power distribution board allows for the server boards SE7500WV2 and SE7501WV2 to be plugged directly into it.
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Power Sub-system 2.1.3 1U Server Chassis SR1300 Baseboard Connector (2) An 8-pin Molex 39-01-2080 connector connected to a cable from the power distribution board connects to the server boards SE7500WV2 and SE7501WV2 to provide power to the processor subsystem. The following table provides the connector pin-out. Table 4. 8-pin Baseboard Power Connector Pinout 2.1.
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1U Server Chassis SR1300 Power Sub-system Table 6. Power Management Signal Cable Pinout 2.2 Pin 1 Signal SMBus-SCL Serial Clock Description 2 SMBus-SDA Serial Data. Information from the power supply 3 Reserved Reserved 4 ReturnS Return remote sense 5 3.3VS 3.3V sense Power Supply The server chassis SR1300 supports one 350W SSI EPS power supply. The 350W power supply supports Power Factor Correction (PFC) and accepts AC input directly from the power source.
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Power Sub-system 1U Server Chassis SR1300 Table 7. Power Supply Input/Output Summary Voltage Current Rating +3.3 VDC Output 16.0A Max +5 VDC Output 12.0A Max +12 V1DC Output 16.0A Max1 (18.0A peak2) +12 V2DC Output 16.0A Max1 (18.0A peak2) -12 VDC Output 0.5A +5 VDC Standby 2.0A Output balancing Total combined output power of all output shall not exceed 350 W AC Line Voltage Auto-ranging for either 90-132 VAC or 180-264 VAC AC Line Frequency 50/60 Hz AC Input Current 4.
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1U Server Chassis SR1300 Power Sub-system The power supply has no power cable harness to distribute power to the system. Instead, the power supply is plugged directly into a power distribution board by means of an edge connector. The following table provides the pinout for the edge connector. Table 8.
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Power Sub-system 2.2.2 1U Server Chassis SR1300 Over Temperature Protection The power supply will be protected against over temperature conditions caused by loss of fan cooling or excessive ambient temperature. In an OTP condition the PSU will shutdown. When the power supply temperature drops to within specified limits, the power supply shall restore power automatically, while the 5V StandBy remains always on.
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1U Server Chassis SR1300 3. Chassis Cooling Chassis Cooling A five-fan module and the two power supply fans provide the necessary airflow to cool the system. A fan on the processor heat sink is not necessary in this chassis. Note: Certain processor kits may come with a Processor Wind Tunnel (PWT) cooling fan and duct for each processor. This cannot be used in the server chassis SR1300 and is not necessary.
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Chassis Cooling 1U Server Chassis SR1300 Table 11.
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1U Server Chassis SR1300 4. Chassis Peripheral Bays Chassis Peripheral Bays The server chassis SR1300 provides two drive bays and one flex bay at the front of the chassis. In SCSI configurations, all three drive bays may be populated with a tray-mounted 3.5” Single Connector Attachment (SCA) SCSI hard disk drive.
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Chassis Peripheral Bays 4.1 1U Server Chassis SR1300 Flex Bay Options The third drive bay, or flex bay, is a multi-purpose drive bay. In SCSI configurations, the flex bay may be used for either a third hot-swappable SCSI drive or an optional floppy/CDROM or floppy/DVD module. For ATA-100 configurations, the flex bay is only used to support these optional modules. The Floppy/CDROM module is a 3.5” floppy drive and a 0.5” (12.7mm) slim line CD-ROM drive mounted as a single unit in the flex bay.
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1U Server Chassis SR1300 4.3 Chassis Peripheral Bays Drive Trays Each hard drive used in the system must be mounted to a drive tray, making insertion and extraction of the drive from the chassis very simple. Each drive tray has its own dual purpose latching mechanism which is used to both insert/extract drives from the chassis and lock the tray in place. Each drive tray supports a light pipe providing a drive status indicator, located on the backplane, to be viewable from the front of the chassis.
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Front Panel Assembly 1U Server Chassis SR1300 5. Front Panel Assembly 5.1 Front Panel Buttons and Intrusion Switch The server chassis SR1300 front panel assembly houses several system control buttons and a chassis intrusion switch. Each of their functions is listed in the following table. Figure 16. Front Panel Assembly Table 12. Control Button and Intrusion Switch Functions Feature Power/Sleep Button Function Toggles the system power on/off.
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1U Server Chassis SR1300 Front Panel Assembly Figure 17. Front Panel Assembly Interface Board, Front View 5.2 Front Panel Assembly Connectors The front panel assembly has two external I/O connectors: • • One USB One video The following tables provide the pinouts for both types of connectors. Table 13.
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Front Panel Assembly 1U Server Chassis SR1300 Table 14. Video Connector Pin # 1 I/O O Description Red 2 O Green 3 O Blue 4 O No Connect 5 Pwr GND 6 Pwr GND 7 I Video Switch 8 Pwr GND Pwr GND 9 10 No Connect 11 No Connect 12 No Connect 13 O Hsync 14 O Vsync 15 No Connect If a monitor is connected to the front panel video connector, the rear video port (on the server boards SE7500WV2 and SE7501WV2) will be disabled and the front panel video will be enabled.
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1U Server Chassis SR1300 Front Panel Assembly Table 16.
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Front Panel Assembly 5.3 1U Server Chassis SR1300 Front Panel System Status LED Indicators The front panel houses six LEDs, which are viewable with or without the front bezel to display the system’s operating state. The LEDs provide a status for the following system states: • • • • • Power/Sleep NIC1 / NIC2 Activity System State Disk Activity System Identification Table 17.
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1U Server Chassis SR1300 5.3.1 Front Panel Assembly Power / Sleep LED The BIOS controls the front panel Power LED as described in the following table. Table 18.
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Front Panel Assembly 1U Server Chassis SR1300 Non-Critical Condition • • • • Temperature, voltage, or fan non-critical threshold crossing Chassis intrusion Satellite controller sends a non-critical state, via the Set Fault Indication command, to the BMC Set Fault Indication command from system BIOS. The BIOS may use the Set Fault Indication command to indicate additional, non-critical status such as system memory or CPU configuration changes Degraded Condition • • 5.3.
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1U Server Chassis SR1300 6. Hot-Swap SCSI Backplane Hot-Swap SCSI Backplane The server chassis SR1300 can support a multifunctional SCSI backplane, supporting the following features: • • • • • • • • • 6.
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Hot-Swap SCSI Backplane 6.2 1U Server Chassis SR1300 SCSI Backplane Configuration Jumpers The following table describes the settings and functionality of the jumper block used on the SR1300 hot-swap SCSI backplane. Table 19. Hot-Swap Backplane Configuration Jumpers Option Firmware Update Location J4 Description Placing this jumper in the “FORCE UPDATE” position forces external firmware update of the program code stored in Flash memory.
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1U Server Chassis SR1300 Hot-Swap SCSI Backplane CD-ROM & DVD /FDD To FDD/CD Daughter Board connector From SE7500WV2 or SE7501WV2 Base Board FRONT PANEL INTERFACE To Front Panel Board Wide SCSI Connector Drive 0 LVD/SE MultiMode Terminators Drive 1 SE Terminator 53C80 SCSI Interface 3860 LVD to SE Bridge Drive 2 System Memory (RAM / ROM) Drive Power Control 80C652 SAF-TE MicroController Local I2C* EEPROM Figure 19. Hot-Swap SCSI Backplane Functional Diagram 6.3.
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Hot-Swap SCSI Backplane 6.3.2 1U Server Chassis SR1300 Phillips* P80C652EBB Micro-Controller The SCSI backplane supports the SAF-TE 1.0 specification and utilizes the Philips* P80C652EBB micro-controller for all SAF-TE functions. If necessary, the backplane can function without the SAF-TE micro-controller as a simple interconnection for the SCSI drives and termination in LVD or single-ended (SE) mode. P80C652XEBB features: • • • • • • • • 6.3.2.
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1U Server Chassis SR1300 Hot-Swap SCSI Backplane The maximum high-level input current at 0.9VDD, of both the SDA pin and SCL pin of an I2C device, is 10uA, including the leakage current of a possible output stage. The maximum capacitance, of both the SDA pin and the SCL pin of an I2C device, is 10pf. 6.3.2.3 • • Noise Margin Noise margin minimum on the low level is 0.1 VDD. Noise margin minimum on the high level is 0.2 VDD. 6.3.
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Hot-Swap SCSI Backplane 6.3.6 1U Server Chassis SR1300 SCSI Termination Passive SE termination is used for the single-ended extension of the SCSI bus on which the 53C80S resides. LVD/SE multi-mode terminators provide SPI-4 compliant active termination for the backplane end of the SCSI bus. It is assumed that the other end of the SCSI segment is properly terminated as required by the SPI-4 specification.
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1U Server Chassis SR1300 6.3.10 Hot-Swap SCSI Backplane Local I2C* EEPROM and Temperature Sensor An I2C bus temperature sensor is connected to the micro-controller on a private I2C bus. Microcontroller programming implements the private I2C connection by explicitly setting and clearing appropriate clock and data signals, to emulate an I2C-like interface to the sensor. Temperature information is made available to other devices in the chassis using Enclosure Services messages.
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Hot-Swap SCSI Backplane 1U Server Chassis SR1300 Table 21. UltraWide (SE) and Ultra2 (LVD) SCSI Connector Pinout 6.3.
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1U Server Chassis SR1300 6.3.
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Hot-Swap SCSI Backplane 6.3.15 1U Server Chassis SR1300 Front Panel Interface Connector The SCSI backplane provides a pathway for front panel signals from the 100-pin floppy/FP/IDE connector to the FP connector (WY*:BHS-33A-2.0D-SM) . The pinout for the FP connector is shown in the following table. Table 23.
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1U Server Chassis SR1300 6.3.16 Hot-Swap SCSI Backplane SCA2 Hot-Swap SCSI Drive Connectors The SCSI backplane provides three hot-swap SCA2 connectors (Foxconn*: LS24403-J34) , which provide power and SCSI signals using a single connector. Each SCA drive attaches to the backplane using one of these connectors. Figure 21. 80-pin SCA2 SCSI Interface Table 24.
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Hot-Swap SCSI Backplane 1U Server Chassis SR1300 Pin 29 Signal Name -DB (P1) Signal Name +DB (P1) Pin 69 30 -DB (15) +DB (15) 70 31 -DB (14) +DB (14) 71 32 -DB (13) +DB (13) 72 33 -DB (12) +DB (12) 73 34 5V Mated 2 74 35 5V 5V Ground 75 36 5V PreCharge 5V Ground 76 37 Spindle Sync Active LED Out 77 38 RMT_START DLYD_START 78 39 SCSI ID (0) SCSI ID (1) 79 40 SCSI ID (2) SCSI ID (3) 80 Revision 1.
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1U Server Chassis SR1300 7.
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ATA Backplane 1U Server Chassis SR1300 Figure 22. ATA Backplane Layout 7.2 ATA Backplane Functional Architecture The ATA backplane is made up of the following functional blocks: • • • ATA100 bus with IDE connectors, which are combined with 4-pin power connectors ATA drive power control Peripheral/front panel interfaces The figure below shows the functional blocks of the ATA backplane. Revision 1.
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1U Server Chassis SR1300 ATA Backplane Figure 23. ATA Backplane Functional Block Diagram 7.2.1 Field Replaceable Unit (FRU) The ATA backplane uses a Dallas* DS1624 to save board specific data, including serial number. This is attached to the I2C bus of the front panel. 7.2.
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ATA Backplane 1U Server Chassis SR1300 Table 25.
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1U Server Chassis SR1300 7.2.4 ATA Backplane Pin A43 GND Name Pin B43 Name CDR_DREQ A44 CDR_IOW_L B44 GND A45 CDR_IOR_L B45 CDR_DACK_L A46 CDR_IRDY B46 GND A47 CDR_IRQ B47 CDR_ADDR1 A48 CDR_ADDR2 B48 CDR_ADDR0 A49 GND B49 CDR_CS1_L A50 CDR_CS3_L B50 FDD/CD Daughter Board Connector The ATA backplane provides a pathway for floppy and IDE33 signals from the 100-pin floppy/FP/IDE connector to the high-density FDD/CDROM daughter board connector.
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ATA Backplane 7.2.6 1U Server Chassis SR1300 Pin # 22 I/O NC Description NC_FP_RSV2 23 I FP_NMI_BTN_L 24 O NIC2_LED_ON_ACTIVITY 25 I V_IO_VSYNC_BUFF_FP_L 26 I V_IO_HSYNC_BUFF_FP_L 27 I V_IO_BLUE_CONN_FP 28 PWR GND 29 I V_IO_GREEN_CONN_FP 30 PWR GND 31 O V_IO_RED_CONN_FP 32 I GND 33 NC TP_FP34_P33 34 NC ZZ_V_SWITCH_L ATA100 Connectors The ATA backplane has two 40-pin ATA100 connectors. These connectors relay ATA100 signals from the baseboard to the ATA drives.
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1U Server Chassis SR1300 7.2.7 ATA Backplane Power Connector The ATA backplane provides power for up to two ATA drives and one floppy/CD-ROM module. A 6-line power cable is routed from the power distribution board and plugs into a connector on the backplane. Table 28. 6-Pin ATA Backplane Power Connector Pinout 7.2.8 Pin 1 Name GND Pin 4 Name +12V 2 GND 5 +12V 3 +5V 6 Reserved ATA100 Interface to Drive The ATA drive interface combines both ATA and power signals into a single connector.
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Floppy/CDROM and Floppy/DVDROM Module Interface Assemblies 8. 1U Server Chassis SR1300 Floppy/CDROM and Floppy/DVDROM Module Interface Assemblies Two modules are available for use in the server chassis SR1300. Both support a floppy disk drive, while one contains a CDROM drive and the other a DVDROM drive. The interface assembly will be referred to as FDD/CDROM (though it supports DVDROM drives also).
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1U Server Chassis SR1300 Floppy/CDROM and Floppy/DVDROM Module Interface Assemblies Pin 49 Name FDD_DENSEL0 Pin 50 Name FDD_DS0_L 51 FDD_TRK0_L 52 FDD_RDATA_L 53 VCC** 54 VCC** 55 VCC** 56 VCC** 57 VCC** 58 VCC** 59 VCC** 60 VCC** Notes: * This signal is used only on the ATA backplane.
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Floppy/CDROM and Floppy/DVDROM Module Interface Assemblies Pin 1U Server Chassis SR1300 12 Signal Name CDR_D (15) CDR_D (0) Signal Name Pin 52 13 CDR_D (14) CDR_D (1) 53 14 CDR_D (13) CDR_D (2) 54 15 CDR_D (12) CDR_D (3) 55 16 CDR_D (11) CDR_D (4) 56 17 CDR_D (10) CDR_D (5) 57 18 CDR_D (9) CDR_D (6) 58 19 CDR_D (8) CDR_D (7) 59 20 CHP3_CDRST_L FDD_INDEX_L 60 21 FDD_DSKCHG_L FDD_DIR_L 61 22 FDD_WDATA_L FDD_DENSEL0 62 23 FDD_TRK0_L FDD_DS0_L 63 24 FDD_RDATA
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1U Server Chassis SR1300 9. PCI Riser Cards PCI Riser Cards The SR1300 1U server chassis supports the use of two single-slot PCI riser cards. Each riser card is capable of supporting a 3.3 V, 64-bit add-in card. For the SCSI SKU, the board supports 66 MHZ PCI in the low profile slot and up to 100MHZ PCI-X in the full height slot. If the onboard 7899 SCSI device is disabled in BIOS setup, the low profile slot can support 100Mhz PCI-X.
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PCI Riser Cards 1U Server Chassis SR1300 The PCI riser card in the riser slot located closest to the edge of the baseboard will only support low profile add-in cards. The second riser card is capable of supporting both full-height/fulllength and low-profile PCI cards (low profile PCI cards in this slot require full height PCI brackets). Figure 26. PCI Riser Assembly Diagram The following table provides the pinout of the 64-bit PCI connector. Table 32.
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1U Server Chassis SR1300 PCI Riser Cards Pin 15 Side B Ground RST# Side A Pin Side B CONNECTOR KEY Side A CONNECTOR KEY 16 CLK +3.3V (I/O) CONNECTOR KEY CONNECTOR KEY 17 Ground GNT# 63 Reserved Ground 18 REQ# Ground 64 Ground C/BE [7]# 19 +3.3V (I/O) Reserved 65 C/BE [6]# C/BE [5]# 20 AD [31] AD [30] 66 C/BE [4]# +3.3V (I/O) 21 AD [29] +3.
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PCI Riser Cards 1U Server Chassis SR1300 Figure 27. 1U PCI Riser Card Mechanical Drawing Revision 1.
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1U Server Chassis SR1300 Supported Intel® Server Boards 10. Supported Intel® Server Boards The SR1300 1U server chassis is designed to support the feature requirements of the Intel® server boards SE7500WV2 and SE7501WV2. Please refer to the SE7500WV2 Technical Product Specification and the SE7501WV2 Technical Product Specification for additional baseboard information. Two server boards SE7500WV2 and two server boards SE7501WV2 will be made available.
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Serial Port Usage • • • • • 1U Server Chassis SR1300 Two external Universal Serial Bus (USB) ports on the rear of the board with an additional internal header that provides one optional USB port for front panel support One external low-profile RJ45 Serial B port on the back of the board. Support for up to 5 multi-speed fans (via single 12pin fan header) and 2 fixed speed fans SSI compliant connectors for SSI interface support.
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1U Server Chassis SR1300 Regulatory and Integration Information 12. Regulatory and Integration Information 12.1 Product Regulatory Compliance 12.1.1 Product Safety Compliance The server board SE7500WV2 and SE7501WV2 complies with the following safety requirements: • • • • • UL 1950 - CSA 950 (US/Canada) EN 60 950 (European Union) IEC60 950 (International) CE – Low Voltage Directive (73/23/EEC) (European Union) EMKO-TSE (74-SEC) 207/94 (Nordics) 12.1.
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Regulatory and Integration Information 12.1.3 1U Server Chassis SR1300 Product Regulatory Compliance Markings This product is provided with the following Product Certification Markings. • • • • • • • • • UL / cUL Listing Mark CE Mark German GS Mark Russian GOST Mark FCC, Class A Verification Marking ICES-003 (Canada EMC Compliance Marking) VCCI, Class A Mark Australian C-Tick Mark Taiwan BSMI Certification Number and Class A Warning 12.2 Electromagnetic Compatibility Notices 12.2.
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1U Server Chassis SR1300 Regulatory and Integration Information Only peripherals (computer input/output devices, terminals, printers, etc.) that comply with FCC Class B limits may be attached to this computer product. Operation with noncompliant peripherals is likely to result in interference to radio and TV reception. All cables used to connect to peripherals must be shielded and grounded.
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Regulatory and Integration Information 12.2.5 1U Server Chassis SR1300 Japan EMC Compatibility Electromagnetic Compatibility Notices (International) English translation of the notice above: This is a Class A product based on the standard of the Voluntary Control Council For Interference (VCCI) from Information Technology Equipment. If this is used near a radio or television receiver in a domestic environment, it may cause radio interference.
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1U Server Chassis SR1300 Regulatory and Integration Information ADVARSEL! Lithiumbatteri - Eksplosionsfare ved fejlagtig håndtering. Udskiftning må kun ske med batteri af samme fabrikat og type. Levér det brugte batteri tilbage til leverandøren. ADVARSEL Lithiumbatteri - Eksplosjonsfare. Ved utskifting benyttes kun batteri som anbefalt av apparatfabrikanten. Brukt batteri returneres apparatleverandøren. VARNING Explosionsfara vid felaktigt batteribyte.
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Environmental Limits 1U Server Chassis SR1300 13. Environmental Limits 13.1 System Level Environmental Limits The table below defines the system level operating and non-operating environmental limits (Office or Computer room Environment). Table 33.
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1U Server Chassis SR1300 Environmental Limits 13.3 System Environmental Testing The system will be tested per the Environmental Standards Handbook, Intel Doc.#662394-03. These tests include: • • • • • • • • Temperature Operating and Non-Operating Humidity Non-Operating Packaged and Unpackaged Shock Packaged and Unpackaged Vibration AC Voltage, Frequency and Source Interrupt AC Surge Acoustics (Sound Power and Sound Pressure) ESD Revision 1.
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Serviceability and Availability 1U Server Chassis SR1300 14. Serviceability and Availability The system is designed to be serviced by qualified technical personnel only. The desired Mean Time To Repair (MTTR) of the system is 30 minutes, including diagnosis of the system problem. To meet this goal, the system enclosure and hardware have been designed to minimize the MTTR.
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1U Server Chassis SR1300 Calculated MTBF 15. Calculated MTBF The Mean Time Between Failures (MTBF) for the SR1300 server chassis, integrated with a server board SE7500WV2 and SE7501WV2, is calculated at 30,000 hours operating at 35 Degrees C. The following table shows the MTBF numbers for individual components within the chassis. Table 34.
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Calculated MTBF 1U Server Chassis SR1300 This page intentionally left blank Revision 1.
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1U Server Chassis SR1300 Appendix A: SR1300 Integration and Usage Tips Appendix A: SR1300 Integration and Usage Tips This section provides a list of useful information that is unique to the server chassis SR1300 and should be kept in mind while integrating and configuring your server board SE7500WV2 or SE7501WV2. Only low-profile (1.2 in or 30.48 mm) DIMMs can be used in the SR1300 server chassis. Only low-profile PCI add-in cards can be used in the PCI riser located closest to the edge of the chassis.
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Glossary 1U Server Chassis SR1300 Glossary Word / Acronym ACA Australian Communication Authority Definition ANSI American National Standards Institute BMC Baseboard Management Controller CMOS Complementary Metal Oxide Silicon D2D DC-to-DC EMP Emergency Management Port FP Front Panel FRB Fault Resilient Boot FRU Field Replaceable Unit LPC Low-Pin Count MTBF Mean Time Between Failure MTTR Mean Time to Repair OTP Over Temperature Protection OVP Over Voltage Protection PFC Power
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1U Server Chassis SR1300 Index Index A Adaptec AIC-3860, 31 air baffle, 15 ATA backplane features, 39 functional blocks, 40 layout, 39 ATA drive, 17, 18 Maxtor, 18, 39 replacing, 18 Western Digital, 18, 39 ATA drive interface connector, 45 ATA power connector, 45 ATA100 connector, 44 B baseboard connector, 9, 10 battery, 58 boot block update, 28 C chassis intrusion, 6 chassis intrusion switch, 20 critical conditions, 25 D Dallas DS1624, 33, 41 degraded conditions, 26 DIMMs, 53 disk activity LED, 24, 26 dr
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Index 1U Server Chassis SR1300 reset, 29 ATA power connector, 45 ATA100 connector, 44 baseboard connector, 9, 10 fan module, 15 FDD/CDROM interface, 46 Floppy/CDROM daughter board interface, 47 Floppy/CDROM module connector, 34 Floppy/DVDROM module connector, 34 floppy/FP/IDE connector, 36, 41 front panel connector, 43 I/O connectors, 21 PCI connector, 50 peripheral power connector, 10 power management signal cable, 10 power supply, 8 power supply edge connector, 13 SCA2 connector, 37 SCSI backplane powe
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1U Server Chassis SR1300 SCA2 connector, 37 SCSI backplane features, 27 functional blocks, 28 jumpers, 28 layout, 27 power control, 32 reset, 29 SCSI bus, 27 SCSI cable, 33 SCSI connector, 27 SCSI controller, 31 SCSI drive, 17, 18 SCSI interface, 31 SCSI termination, 32 SE7500WV2 features, 53 security, 6 serial port, 53, 54 server boards, 53 service, 62 sliding rail kit, 6 SYM53C80s features, 31 Symbios 53C80S, 31 Index System Components, 2 system state LED, 24, 25 T temperature sensor, 33 U Unitrode UCC