Intel® Server Chassis SC5600 Technical Product Specification Intel order number E39532-004 Revision 1.
Revision History Intel® Server Chassis SC5600 Revision History Date May, 2008 Revision Number 0.5 March, 2009 1.0 Updated Chassis Feature and System Cooling sections; Updated Chassis Power Subsystem section; Updated MTBF and MTTR table; updated Glossary table April 2010 1.1 Removed CCC related notice ii Modifications Initial version Revision 1.
Intel® Server Chassis SC5600 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.
Table of Contents Intel® Server Chassis SC5600 Table of Contents 1. 2. Introduction .......................................................................................................................... 1 1.1 Intel® Server Chassis SC5600 Design Features...................................................... 1 1.2 Intel® Server Chassis SC5600BASE Summary ....................................................... 3 1.3 Intel® Server Chassis SC5600BRP Summary ..........................................
Intel® Server Chassis SC5600 4.3 Redundant Cooling Solution .................................................................................. 22 4.4 Fan Control ............................................................................................................ 23 4.4.1 Basic Fan Control (All fans) ................................................................................... 23 4.4.2 Additional Fan Control (120 mm fans) .................................................................
Table of Contents Intel® Server Chassis SC5600 6.1 Intel® Server Chassis SC5600 4HDD and 6HDD Passive SAS/SATA Hot-swap Back Plane (HSBP) Overview ................................................................................................. 51 6.1.1 Server Board and Storage Management Controller VSC410* ............................... 52 6.1.2 General Purpose Input/Output (GPIO) .................................................................. 55 6.1.3 External Memory Device ....................
Intel® Server Chassis SC5600 Table of Contents 7.1.4 Serial Cable ........................................................................................................... 76 7.1.5 IPMB cable for Drive Bays (4-pin) ......................................................................... 76 7.1.6 SES Cable for Drive Bays (3-pin) .......................................................................... 76 7.1.7 SGPIO Cable for Drive Bays (4-pin) ...................................................
List of Figures Intel® Server Chassis SC5600 List of Figures Figure 1. Intel® Server Chassis SC5600BASE Components ........................................................ 3 Figure 2. Intel® Server Chassis SC5600LX Components ............................................................. 4 Figure 3. Bezel Assembly ............................................................................................................. 7 Figure 4. Rack Configuration ......................................................
Intel® Server Chassis SC5600 List of Figures Figure 33. Chassis Interconnect Diagram (SC5600LX w/Expander Backplanes) ...................... 72 Figure 34. Chassis Front Panel Cable ........................................................................................ 73 Figure 35. USB Cable Drawing ................................................................................................... 74 Figure 36. USB Connector ................................................................................
List of Tables Intel® Server Chassis SC5600 List of Tables Table 1. Intel® Server Chassis SC5600BASE, SC5600BRP, and SC5600LX Features ............... 1 Table 2. Product Matrix ................................................................................................................. 5 Table 3. Chassis Dimensions and Weights .................................................................................. 6 Table 4. System Color Code .................................................................
Intel® Server Chassis SC5600 List of Tables Table 33. Peripheral Power Connectors ..................................................................................... 45 Table 34. Right-Angle Peripheral Power Connectors ................................................................. 46 Table 35. Right-Angle SATA Power Connector .......................................................................... 46 Table 36. SATA Power Connector ....................................................................
List of Tables Intel® Server Chassis SC5600 < This page intentionally left blank. > xii Revision 1.
Intel® Server Chassis SC5600 1. Introduction Introduction This specification details the feature set of the Intel® Server Chassis SC5600 family, a server chassis series designed for Intel® Server Board products. The Intel® Server Chassis SC5600 series of products are low cost, quick to integrate, and allow utilization of multiple platforms and configurations.
Introduction Intel® Server Chassis SC5600 Intel® Server Chassis SC5600BASE Intel® Server Chassis SC5600BRP Intel® Server Chassis SC5600LX supports up to ten (10) drives. supports up to ten (10) drives PCI Slots Seven (7) full-length PCI slots. Seven (7) full-length PCI slots. Seven (7) full-length PCI slots. Form Factor 5U Tower, convertible to rack mount. 5U Tower, convertible to rack mount. 5U Tower, convertible to rack mount.
Intel® Server Chassis SC5600 Intel® Server Chassis SC5600BASE Introduction Intel® Server Chassis SC5600BRP Intel® Server Chassis SC5600LX Backplane Backplane • 10-pack Branding / Customization Panels • 10-pack Branding / Customization Panels • Unpainted Rack Top Cover • Unpainted Rack Top Cover ® 1. For the product and order codes of each accessory, see Intel Server Chassis SC5600 Configuration Guide, or ® refer to Intel Server Configurator Tool at http://serverconfigurator.intel.
Introduction Intel® Server Chassis SC5600 fans (4-pin) are mounted in front of the server board and one tachometer output fan (4-pin) is mounted at the back edge of the chassis. Optional four- and six-drive SATA/SAS hot-swap drive bay kits provide upgrades to allow support for up to 10 hot-swap SATA/SAS drives. Three 5.25inch half-height peripheral bays are available for installations of a floppy drive, CD-ROM drive, and/or other accessories. Standard chassis configuration is pedestal.
Intel® Server Chassis SC5600 Introduction Table 2. Product Matrix Product Code Compatible Intel® Server Board Standard Fixed Hard Drive Bays Optional Hot-swap SAS/SATA Drives Power Supply and Required Power Cord Configuration Hot-swap Redundant Fans Pedesta Rack ® Intel Server Board S5520HC SC5600BASE Fixed 670-W Power Supply ® 6-SAS/SATA Intel Server Board S5500HCV 6-drive bay ® Intel Server Board S5520HCT 6-SAS/SATA Expander Pedesta Standar Fixed 670-W PFC.
Chassis Features Intel® Server Chassis SC5600 2. Chassis Features 2.1 Chassis Dimensions and Weight Shipping weights include packaging. Complete systems configured with server board, accessories, and hard disk drives will have varying weights. Table 3. Chassis Dimensions and Weights Configuration Rack Height 17 inches (43.2 cm) 8.6 inches (21.8 cm) Width 8.6 inches (21.8 cm) 16.6 inches (42.2 cm) Depth 28.4 inches (70.9 cm) 27.4 inches (69.6 cm) Clearance front 10 inches (25.
Intel® Server Chassis SC5600 2.3 Chassis Features Pedestal Configuration The standard pedestal front bezel is a molded plastic door covering all drive bays. A key lock is provided to prevent unauthorized access to the peripheral bays. A molded plastic sub-bezel is located on the face of the chassis under the front bezel. The sub-bezel houses the front panel buttons and light pipes for the front panel indicators. Each peripheral bay is covered with a removable electromagnetic interference (EMI) shield.
Chassis Features 2.4 Intel® Server Chassis SC5600 Rack Mount Configuration In the rack mount configuration, the front door is removed and the sub-bezel becomes the front panel for the rack mount system. The drive bays and bezel icons are rotated 90° to have the correct orientation. The rack mount kit includes the chassis slides, rack handles, front door hinge cover plate, and icon label. Figure 4. Rack Configuration 2.
Intel® Server Chassis SC5600 2.6 Chassis Features I/O Panel All input/output (I/O) connectors are accessible on the rear of the chassis. The SSI E-bay 3.5-compliant chassis provides an Advanced Technology Extended (ATX) specification, revision 2.03-compatible cutout for I/O shield installation. Boxed server boards provide the required I/O shield for installation in the cutout. The following figure shows the I/O cutout dimensions. The rear I/O panel conforms to the ATX Specification, Revision 2.
Chassis Features Intel® Server Chassis SC5600 Figure 7. 6-Drive Hot-swap Drive Cage 2.7.1 Hot-swap Drive Trays Each hard drive must be mounted to a hot-swap drive tray, making insertion and extraction of the drive from the chassis very simple. Each drive tray has its own dual-purpose latching mechanism used to both insert and extract drives from the chassis and lock the tray in place.
Intel® Server Chassis SC5600 2.7.2 Chassis Features Drive Blanks You must use drive blanks when a hard drive bay does not have a hard drive installed. Drive blanks simulate the spatial volume of a hard disk that is required to maintain proper air pressure limits necessary to cool the system. Figure 9. Drive Tray with Drive Blank Revision 1.
Chassis Features 2.8 Intel® Server Chassis SC5600 5.25-inch Half-height Peripheral Bays Three 5.25-inch half-height drive bays are available for installation of a floppy drive, CD-ROM drive, or tape drive. The chassis ships with a 3.5-inch fixed drive adapter bracket, installed in the top 5.25-inch drive bay, and two empty 5.25-inch drive bays. Tool-less mounting rails are included for all three-drive bays and attach without screws. Figure 10. Tool-less Rails Mounting 5.
Intel® Server Chassis SC5600 3. Front Panel Front Panel The Intel® Server Chassis SC5600 provides a 24-pin cable option with the chassis kit. A 24-pin Entry-level Electronic Bay SSI (rev 3.61) front panel header for Intel® server boards is located on the back of the front panel. This allows a 24-pin ribbon cable to connect to SSI rev 3.61compliant server boards. The front panel features control buttons and LED indicators. The LEDs are visible with the pedestal exterior access door closed.
Front Panel 3.2 Intel® Server Chassis SC5600 Front Panel Connectors The following table lists the front panel connectors. Table 5. Front Panel Connector Designations Designator 3.2.1 J4L2 12x2 Header Size Description Front panel SSI connector J4L1 2x1 Intrusion or front panel key switch 24-pin EEB SSI Compliance Connector Pin-out A 24-pin Entry-level Electronics Bay (EEB) SSI (rev 3.61) front panel header is located on the back of the front panel.
Intel® Server Chassis SC5600 3.3 Front Panel Front Panel Controls and Indicators The following figure displays the front panel control buttons and LED indicators. The toolactivated non-maskable Interrupt (NMI) switch is located below the Status Fault LED. When the hot-swap drive bay is installed, a bi-color hard drive LED is located on each drive carrier (six total) to indicate specific drive failure or activity. For pedestal systems, these LEDs are visible when the front bezel door is open. Figure 13.
Front Panel Intel® Server Chassis SC5600 Table 7. Front Panel LED Functions LED Power/Sleep Color Green Off System Status Green Amber HDD NIC 1 / NIC 2 Activity Identification Green Green Blue Condition1 On What It Means Power on Blink Sleep S1/S3 Off Off (also Sleep S4/S5) N/A AC power off. System is powered down or S5 states, if no degraded, non-critical, critical, or non-recoverable conditions exist. Solid on System booted / Normal operation Blink System degraded (See Section 3.3.
Intel® Server Chassis SC5600 3.3.1 Front Panel Power / Sleep LED The green power LED is active when system DC power is on. The power LED is controlled by the BIOS. The power LED reflects a combination of the state of system (DC) power and the system ACPI state. Table 8 shows the states that can be assumed. Table 8. Power LED Operation. State Power off Power Mode Non-ACPI Off Power on Non-ACPI On S5 ACPI Off Mechanical is off, and the operating system has not saved any context to the hard disk.
Front Panel 3.3.2.2 Intel® Server Chassis SC5600 Non-Critical Conditions A non-critical condition is a threshold crossing associated with the following events: 3.3.2.3 Critical temperature threshold asserted CATERR asserted Critical voltage threshold asserted VRD hot asserted SMI Timeout asserted Degraded Conditions A degraded condition could be associated with the following events: 3.3.
Intel® Server Chassis SC5600 4. System Cooling System Cooling Two cooling solutions are used in the Intel® Server Chassis SC5600 series. The base solution consists of three fixed fans (one 92-mm and two 120-mm) to provide sufficient system cooling. The second redundant solution is designed for maximum up time by providing four replaceable hot-swap fans (two 92-mm and two 120-mm). The fans can maintain proper system cooling, even with a single failed fan.
System Cooling Intel® Server Chassis SC5600 front to back. Please refer to the Service Guide or Quick Start User’s Guide of the compatible server boards for heat sink installation. 4.1.2 Passive Heat Sink Cooling Unless otherwise indicated in the server board manuals, you should use processors with passive heat sinks should be used in the Intel® Server Chassis SC5600LX. The ducting shown (Figure 15) is designed to work with the passive heat sink.
Intel® Server Chassis SC5600 System Cooling air through the rear of each hard drive bay to provide drive, processors, and memory cooling. The rear fan (120 x 38 mm fan) draws air through the back edge of the chassis to provide cooling for memory and processors. All system fans provide a signal for RPM detection the server board can make available for server management functions. In addition, the power supply fan provides cooling for the power supply. Figure 16.
System Cooling 4.3 Intel® Server Chassis SC5600 Redundant Cooling Solution Redundant cooling solution is used in the Intel® Server Chassis SC5600LX. Two hot-swap 120x38 mm fans and two hot-swap 92x38 mm fans provide cooling for the processors, hard drives, and add-in cards. The two 120x38 mm fans ensure proper cooling of the core area (processors and memory) and the hot-swap drive bay. The two 92x38 mm fans provide cooling for the PCI card area.
Intel® Server Chassis SC5600 System Cooling The following figure shows the airflow characteristics through the Intel® Server Chassis SC5600LX. Figure 18. Redundant Chassis Airflow Characteristics 4.4 Fan Control The fans in the Intel® Server Chassis SC5600 are designed for server boards that support fan control via a PWM control signal. 4.4.
System Cooling 4.5 Intel® Server Chassis SC5600 Fan Header Connector Descriptions All system fan headers support pulse width modulated (PWM) fans for cooling the processors in the chassis. PWM fans have an improved RPM range (20% to 100% rated fan speed) when compared to voltage controlled fans. Base and BRP chassis fans are a 4-wire/4-pin style designed to plug into 4-pin or 6-pin SSI Fan headers. When plugged into a 6-pin header, only the first four signals are used (Pwr, Gnd, Tach, PWM).
Intel® Server Chassis SC5600 5. Chassis Power Subsystem Chassis Power Subsystem The Intel® Server Chassis SC5600 power supplies are Server System Infrastructure (SSI) compliant. The SSI specifications are available at the following web site: http://www.ssiforum.org. 5.1 670-W Power Supply The 670-W power supply has eight outputs: 3.3 V, 5 V, 12V1, 12V2, 12V3, 12V4, -12 V, and 5 Vsb (standby).
Chassis Power Subsystem Intel® Server Chassis SC5600 Note: All dimensions are in millimeters. Figure 19. Mechanical Outline 5.1.2 670-W Power Supply Output Wire Harness Listed or recognized component appliance wiring material (AVLV2), CN, rated minimum 105°C, 300 VDC shall be used for all output wiring. Table 9. 670-W Power Supply Cable Lengths 26 Revision 1.
Intel® Server Chassis SC5600 From Power Supply cover exit hole Power Supply cover exit hole Power Supply cover exit hole Power Supply cover exit hole Power Supply cover exit hole Extension Extension Power Supply cover exit hole Extension Power Supply cover exit hole Extension Power Supply cover exit hole Extension 5.1.2.
Chassis Power Subsystem 5.1.2.2 Intel® Server Chassis SC5600 CPU 2 Power Connector (P2) Connector housing: 8-Pin Molex 39-01-2080 or equivalent Contact: Molex 44476-1111 or equivalent Table 11. CPU 2 Power Connector 5.1.2.
Intel® Server Chassis SC5600 Chassis Power Subsystem Table 14. Peripheral Power Connectors Pin 1 2 5.1.2.6 Signal +12V4 COM 18 AWG Color Green Black 3 COM Black 4 +5 VDC Red Right-angle Peripheral Power Connectors (P9) Connector housing: JWT F6001HS2-4P or equivalent Table 15. Right-Angle Peripheral Power Connectors 5.1.2.
Chassis Power Subsystem Intel® Server Chassis SC5600 Table 17. SATA Power Connector 5.1.3 Pin Signal 18 AWG Color 1 +3.3 V Orange 2 COM Black 3 +5 VDC Red 4 COM Black 5 +12V4 Green 670-W Power Supply Airflow and Temperature Rise The power supply incorporates one 80-mm fan for self-cooling and system cooling. The fan provides 14 cubic feet per minute (CFM) airflow through the power supply when installed in the system. The cooling air enters the power module from the non-AC side. 5.1.3.
Intel® Server Chassis SC5600 5.1.4 Chassis Power Subsystem 670-W Power Supply AC Specifications The power supply incorporates universal power input with active power factor correction, which reduces line harmonics in accordance with the EN61000-3-2 and JEIDA MITI standards. 5.1.4.1 AC Inlet Connector The AC input connector is an IEC* 320 C14 power inlet. This inlet is rated for 15A / 250VAC. 5.1.4.
Chassis Power Subsystem 5.1.4.5 Intel® Server Chassis SC5600 AC Line Fuse The power supply has one line fused in the single line fuse on the line (Hot) wire of the AC input. The input fuse is a slow blow type. AC inrush current does not cause the AC line fuse to blow under any conditions. Not all protection circuits shall cause the AC fuse to blow unless a component in the power supply has failed. This includes DC output load short conditions. 5.1.5 670-W Power Supply DC Output Specifications 5.1.5.
Intel® Server Chassis SC5600 5.1.5.3 Chassis Power Subsystem Voltage Regulation The output voltages must stay within the following voltage limits when operating at steady state and dynamic loading conditions. These limits include the peak-peak ripple/noise. All outputs are measured with reference to the return remote sense signal (Returns). The +12V3, +12V4, –12 V, and 5 VSB outputs are measured at the power supply connectors referenced to Returns. The +3.
Chassis Power Subsystem 5.1.6.2 Intel® Server Chassis SC5600 Over Voltage Protection The power supply will shut down and latch off after an over-voltage condition occurs. The voltage shall never exceed the maximum levels when measured at the power pins of the power supply connector during any single point of fail. The voltage shall never trip any lower than the minimum levels when measured at the power pins of the power supply connector.
Intel® Server Chassis SC5600 5.2 Chassis Power Subsystem 750-W Power Supply Module The 750-W power supply replaceable module has two outputs: 12 V and 5 VSB. The input is power factor corrected. An IEC connector on the external face provides for AC input to the power supply. The power supply contains a cooling fan. 5.2.1 750-W Power Supply Module Mechanical Outline Note: All dimensions are in millimeters. Figure 20. 750-W Power Supply Module Mechanical Drawings 5.2.1.
Chassis Power Subsystem Intel® Server Chassis SC5600 Figure 21: Power Supply Module Retention Mechanism 5.2.2 750-W Power Supply Module Output Wire Harness The output wiring harness is part of the power distribution board (backplane) and is described in that section. 5.2.3 750-W Power Supply Module Airflow Requirements and Temperature Rise The power supply module incorporates fans for self-cooling and system cooling.
Intel® Server Chassis SC5600 5.2.4.1 Chassis Power Subsystem AC Input Voltage Specification The power supply operates within all specified limits over the following input voltage range (see the following table). The power supply shall power off if the AC input is less than the 75 VAC+/-5 VAC range. The power supply operates properly starting at 85 VAC +/- 4 VAC input voltages. Table 23.
Chassis Power Subsystem Intel® Server Chassis SC5600 Table 24.
Intel® Server Chassis SC5600 Pin 24 25 26 27 28 29 30 31 32 33 34 35 Chassis Power Subsystem Solder Side +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V Pin Component Side +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V +12 V 47 46 45 44 43 42 41 40 39 38 37 36 The ground of the pins of the output connector provides the power return path. The ground pin is connected to safety ground (power supply enclosure). 5.2.5.
Chassis Power Subsystem 5.2.5.4 Intel® Server Chassis SC5600 Voltage Regulation The output voltages must stay within the following voltage limits when operating at steady state and dynamic loading conditions. All outputs are measured with reference to the return remote sense signal (Returns). The 12 V and 5 VSB outputs are measured at the power distribution output harness connector. Table 26. Voltage Regulation Limits 5.2.6 Parameter Tolerance Minimum Nominal Maximum Units + 12 V -5%/+5% +11.
Intel® Server Chassis SC5600 Chassis Power Subsystem 5.2.7 750-W Power Supply Control and Indicator Functions 5.2.7.1 PSON# Input Signal The PSON# signal is required to turn on/off the power supply. PSON# is an active low signal that turns on the +12 V power rail. When this signal is not pulled low by the system or left open, the output (except the +5 VSB) turns off. This signal is pulled to a standby voltage by a pull-up resistor internal to the power supply. 5.2.7.
Chassis Power Subsystem 5.3 Intel® Server Chassis SC5600 750-W Power Distribution Board The power distribution board (PDB) is designed to plug directly to the output connector of the power supplies and contains the DC/DC power converters required to produce the output voltages: +3.3 VDC, +5 VDC, and –12 VDC along with additional protection circuitry and a FRU EEPROM. 5.3.1 Power Distribution Mechanical Overview Note: All dimensions are in millimeters. Figure 22. Power Supply Distribution 5.3.
Intel® Server Chassis SC5600 Chassis Power Subsystem 5.3.3 Electrical Specification 5.3.3.1 Input Connectors Each power supply module provides card edge fingers, which mate with the female input connector on the power distribution board. This blind mating type connector connects the power supply’s output voltages and signals. Note: All dimensions are in millimeters. Figure 23. PDB Connector Layout 5.3.3.
Chassis Power Subsystem Intel® Server Chassis SC5600 Length (mm) To Connector Number Number of pins 800 P1 24 Baseboard Power Connector 350 P2 8 CPU 2 Power Connector 650 P3 8 CPU 1 Power Connector 350 P4 5 Power Signal Connector 250 P5 4 Extension 100 P6 4 Extension 100 P7 4 Power Supply cover exit hole 600 P8 4 Peripheral Power Connector for HDD Extension 75 P9 4 Right-angle Peripheral Power Connector (Cover with sleeve) for HDD 600 P10 4 Peripheral Power Conne
Intel® Server Chassis SC5600 5.3.3.2.2 Chassis Power Subsystem CPU 2 Power Connector (P2) Connector housing: 8-Pin Molex 39-01-2080 or equivalent Contact: Molex 44476-1111 or equivalent Table 30. CPU 2 Power Connector 5.3.3.2.
Chassis Power Subsystem 5.3.3.2.6 Intel® Server Chassis SC5600 2 COM Black 3 COM Black 4 +5 VDC Red Right-angle Peripheral Power Connectors (P9) Connector housing: JWT F6001HS2-4P or equivalent Table 34. Right-Angle Peripheral Power Connectors 5.3.3.2.7 Pin Signal 18 AWG Color 1 +12V4 Green 2 COM Black 3 COM Black 4 +5 VDC Red Right-angle SATA Power Connector (P12) Connector housing: JWT F6002HS0-5P-18 or equivalent Table 35. Right-Angle SATA Power Connector 5.3.3.2.
Intel® Server Chassis SC5600 Chassis Power Subsystem Pin 5 5.3.3.3 Signal +12V4 18 AWG Color Green Grounding The ground of the pins of the PDB output connectors provides the power return path. The output connector ground pins shall be connected to safety ground (PDB enclosure). 5.3.3.4 Remote Sense The PDB has remote sense return (ReturnS) to regulate out ground drops for all output voltages; +3.3V, +5V, +12V1, +12V2, +12V3, 12V4, -12V, and 5VSB. The PDB uses remote sense (3.
Chassis Power Subsystem Intel® Server Chassis SC5600 2. 3.3 V / 5 V combined power limit is 170 W maximum. 5.3.3.7 DC/DC Converters Voltage Regulation The DC/DC converters’ output voltages must stay within the following voltage limits when operating at steady state and dynamic loading conditions. These limits include the peak-peak ripple/noise specified. All outputs are measured with reference to the return remote sense signal (Returns). The 3.
Intel® Server Chassis SC5600 5.3.4.2 Chassis Power Subsystem Over Voltage Protection (OVP) Each DC/DC converter output on the power distribution board has individual OVP protection circuits built in and locally sensed. The power supply shall shut down and latch off after an over voltage condition occurs. This latch can be cleared by toggling the PSON# signal or by an AC power interruption. The values are measured at the power distribution board harness connectors.
Hot-swap Hard Disk Drive Bays Intel® Server Chassis SC5600 7. 3.3V_PWOK 8. 5V_PWOK 9. –12V_PWOK 5.3.6 Mean Time Between Failures (MTBF) The power supply shall have a minimum MTBF at continuous operation of 100,000 hours at 75% load and 40° C, as calculated by Bell core RPP, or 250,000 hours demonstrated at 75% load and 40° C. 5.3.7 PMBus-Compliant The 750-W power supplies are PMBus-compliant and implement the specification based on the PMBus specification parts I and II, revision 1.2.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays The passive backplane acts as a “pass-through” for the SAS/SATA data from the drives to the SAS/SATA controller on the baseboard or a SAS/SATA controller add-in card. It provides the physical requirements for the hot-swap capabilities. The active backplane has a built-in SAS expander controller that requires a SAS controller on the baseboard or a SAS add-in card for communication.
Hot-swap Hard Disk Drive Bays Intel® Server Chassis SC5600 The following figure shows the functional blocks of the passive 6HDD SAS/SATA HSBP. Figure 24. 6HDD Passive SAS/SATA HSBP Block Diagram 6.1.1 Server Board and Storage Management Controller VSC410* The Vitesse baseboard and storage management controller VSC410* for the SAS/SATA backplane monitors various aspects of the storage enclosure.
Intel® Server Chassis SC5600 6.1.1.1 Hot-swap Hard Disk Drive Bays I2C Serial Bus Interface The VSC410* controller supports four independent I2C interfaces with bus speed of up to 400 Kbits. The I2C bus 0 supports an AT24C64* EEPROM or equivalent I2C -based EEPROM used as FRU. The I2C bus 1 supports a TI TMP75* or equivalent I2C -based temperature sensor. This enables actual temperature value readings to be returned to the host.
Hot-swap Hard Disk Drive Bays Intel® Server Chassis SC5600 Table 41. 6HDD I2C Bus Loading Device Power Well VIH VIL VOL Ileak CAP TMP75* P3V3 0.7 VCC 0.3 VCC 0.4 V/3 mA 1 uA 3 PF 90h SMB_LOCAL_CLK SMB_LOCAL_DAT VSC410* P3V3 2.0 V 0.8 V 0.4 V/4 mA 10 uA N/A N/A SMB_LOCAL_CLK SMB_LOCAL_DAT AT24C64* P3V3 0.7 VCC 0.3 VCC 0.4 mA 3 uA 8 PF A0h SMB_EEPROM_CLK SMB_EEPROM_DAT VSC410* P3V3 2.0 V 0.8 V 0.4 V/4 mA 10 uA N/A N/A SMB_EEPROM_CLK SMB_EEPROM_DAT VSC410* P3V3 2.
Intel® Server Chassis SC5600 6.1.2 Hot-swap Hard Disk Drive Bays General Purpose Input/Output (GPIO) The VSC410* controller supports customizable GPIO pins. The following table lists the GPIO pins and their assigned functions. Table 42. 6HDD VSC410* Controller GPIO Assignment VSC410* Pin I/O Name Type Power Well P0_0 3.3 V O Programming System Function Description U3B1 FLASH ROM and U3C1 FM_EEPROM_WP EEPROM write protect control Connection Pull up 4.7 K to 3.3 V P0_1 I 3.
Hot-swap Hard Disk Drive Bays 6.1.3 Intel® Server Chassis SC5600 External Memory Device The 4HDD and 6HDD passive SAS/SATA HSBP contains a non-volatile 8 Mbit Serial SPI FLASH Memory for Boot and Run-Time/Configuration code storage. The device resides on the SPI interface of VSC410* controller. The Serial SPI Flash memory operates from the 3.3 V rail. 6.1.4 LEDs The 4HDD and 6HDD passive SAS/SATA HSBP contain a green STATUS LED and amber FAULT LED for each of the six hard disk drives.
Intel® Server Chassis SC5600 6.1.5 Hot-swap Hard Disk Drive Bays SAS/SATA Drive Connectors The 4HDD and 6HDD SAS/SATA HSBP provides four or six 22-pin SAS/SATA connectors for hot-swap hard disk drives supporting a 1.5 GHz and 3.0 GHz transfer rate. Table 44. 22-pin SAS/SATA Connector Pin-out Connector Contact Number 6.1.
Hot-swap Hard Disk Drive Bays 6.1.7 Intel® Server Chassis SC5600 Clock Generation and Distribution The 4HDD and 6HDD SAS/SATA HSBP provides one clock source. A 4-MHz crystal provides clock to the VSC410* controller. 6.1.8 7-Pin SAS/SATA Host Connectors The 4HDD and 6HDD passive SAS/SATA HSBP provides four or six 7-pin SAS/SATA connectors that are connected to the host interface of the server board or HBA using a mated cable.
Intel® Server Chassis SC5600 6.1.10 Hot-swap Hard Disk Drive Bays SGPIO Header - SGPIO The following table defines the pin-out of the 4-pin SGPIO Header. This connector is black in color. Table 48. SGPIO Header Pin-out Pin 1 6.1.11 Signal Name SGPIO_CLK Clock Description 2 SGPIO_LOAD Load 3 SGPIO_DATAOUT0 DATAIN 4 SGPIO_DATAOUT1 DATAOUT SES Header - SES The following table defines the pin-out of the 3-pin SES Header. This connector is white in color. Table 49.
Hot-swap Hard Disk Drive Bays 6.1.12 Intel® Server Chassis SC5600 Board Layouts The following figure shows the board layout and connector placement of the 6HDD passive SAS/SATA hot-swap backplane. A: SATA/SAS hot-swap drive connectors B: Power connectors C: IPMB header D: SGPIO header E: SES header F: SATA/SAS cable connectors Note: Secondary side is mirrored Figure 26.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays C: SES header D: SGPIO header E: IPMB header F: Power connectors Note: Secondary side is mirrored Figure 27. 4HDD Passive SAS/SATA HSBP Board Layout 6.1.13 Connector Specifications Table 50. 6HDD Passive SAS/SATA Hot-swap Backplane Connector Specifications Quantity Manufacturer and Part Number Molex 15-24-4744 2 Description Color Reference CONN,PWR,4P,STD,PLG,VT,0.
Hot-swap Hard Disk Drive Bays Intel® Server Chassis SC5600 supported RAID level depends on the feature set of the SAS or SATA controller. The kit order codes are listed: 6.2 AXX4DRV3GR (4HDD Passive SAS/SATA drive cage kit) AXX6DRV3GR (6HDD Passive SAS/SATA drive cage kit) Intel® Server Chassis SC5600 4HDD and 6HDD Active SAS/SATA Hot-swap Back Plane (HSBP) Overview The Intel® Server Chassis SC5600 4HDD or 6HDD Active SAS/SATA Hot-swap Backplane (HSBP) is a monolithic PCB.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays Figure 28. 6HDD Active SAS/SATA HSBP Block Diagram 6.2.1 SAS Expander Vitesse VSC7161* The Vitesse VSC7161* device is a 10-port, self-configuring SAS Expander that supports 1.5 Gbps and 3.0 Gbps. This device is used for server and enclosure applications for mid-range and enterprise storage systems requiring active SAS port expansion. The features include: 1.5 Gbps and 3.
Hot-swap Hard Disk Drive Bays 6.2.1.1 Intel® Server Chassis SC5600 Expander Management (EM) subsystem of SAS Expander The Vitesse VSC7161* Serial Attached SCSI Expander embeds an Expander Management (EM) subsystem that implements SMP dual-function target and initiator ports for in-band, vendorunique enclosure management control. A 75 MHz v3000 CPU with 32 KB of zero wait-state internal SRAM is included in the Expander Management (EM) subsystem. An external flash ROM stores the code for the v3000 CPU.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays Table 52. 7-pin SAS Connector Pin-out Connector Contact Number 1 6.2.1.3 Signal Name GND 2 SASn_EP_RX_P 3 SASn_EP_RX_N 4 GND 5 SASn_EP_TX_N 6 SASn_EP_TX_P 7 GND I2C Serial Bus Interface The Vitesse VSC7161* SAS Expander supports two independent I2C interface ports with bus speed of up to 400 Kbits. The I2C bus at port 0 supports a TI TMP75* or equivalent I2C-based temperature sensor.
Hot-swap Hard Disk Drive Bays Intel® Server Chassis SC5600 Table 54. 6HDD I2C Bus Loading Device VIH VIL TMP75* Power Well P3V3 0.7 VCC 0.3 VCC VSC7161* P3V3 2.0 V AT24C64* P3V3 VSC7161* Ileak CAP 0.4 V/3 mA 1 uA 3 PF I2 C Address 90h 0.8 V 0.4 V/4 mA 10 uA N/A N/A SAS_I2C0_DAT, SAS_I2C0_CLK 0.7 VCC 0.3 VCC 0.4 V/2.1 mA 3 uA 8 PF A0h SAS_I2C0_DAT, SAS_I2C0_CLK P3V3 2.0 V 0.8 V 0.
Intel® Server Chassis SC5600 VSC7161* PIN Name P0_6 I/O Type Power Well O 3.3 V Hot-swap Hard Disk Drive Bays Programming Description Test Point P0_6 System Function TP_EP_P0_6 TP_EP_P0_7 Connection P0_7 O 3.3 V Test Point P0_7 P0_8 O 3.3 V FLASH(U3B1) write protect control FM_ROM0_WP_N Pull up 4.7 K to 3.3 V P0_9 O 3.3 V U3B2(not stuffed) write protect control FM_ROM1_WP_N Pull up 4.7 K to 3.3 V Pull up 4.7 K to 3.3 V P0_10 O 3.
Hot-swap Hard Disk Drive Bays 6.2.5 Intel® Server Chassis SC5600 SAS/SATA Drive Connectors The 4HDD and 6HDD active SAS/SATA HSBP provides four or six 22-pin SAS/SATA connectors for hot-swap hard disk drives supporting a 1.5 GHz and 3.0 GHz transfer rate. The following table defines the pin-out of the 22-pin SAS/SATA Drive Connector: Table 57. 22-pin SAS/SATA Connector Pin-out Connector Contact Number 6.2.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays 4 6.2.7 P5V Clock Generation and Distribution The 4HDD and 6HDD active SAS/SATA HSBP provides one clock source. A 75-MHz oscillator provides the clock to the VSC7161* SAS Expander. 6.2.8 IPMB Header - IPMB The following table defines the pin-out of the 4-pin IPMB Header. Table 59.
Hot-swap Hard Disk Drive Bays 6.2.10 Intel® Server Chassis SC5600 Board Layouts The following figures show the board layout and connector placement of the 6HDD active SAS/SATA hot-swap backplane. A: SATA/SAS hot-swap drive connectors B: SATA/SAS cable connectors C: IPMB header D: Power connectors Note: The secondary side is mirrored Figure 31. 6HDD Active SAS/SATA HSBP Board Layout The following figures show the board layout and connector placement of the 4HDD active SAS/SATA hot-swap backplane.
Intel® Server Chassis SC5600 Hot-swap Hard Disk Drive Bays C: IPMB header D: Power connectors Note: The secondary side is mirrored Figure 32. 4HDD Active SAS/SATA HSBP Board Layout 6.2.11 Connector Specifications Table 60. 6HDD Active SAS/SATA Hot-swap Backplane Connector Specifications Quantity 2 Manufacturer and Part Number Molex 15-24-4744 6 Description Color Reference CONN,PWR,4P,STD,PLG,VT,0.
Chassis Interconnect 7. Intel® Server Chassis SC5600 Chassis Interconnect The following figures illustrate the connections between components of the Intel® Server Chassis SC5600 and a server baseboard. Components include the front panel, hard drive bays, 5.25-inch drives, chassis fans, and power supply. Figure 33. Chassis Interconnect Diagram (SC5600LX w/Expander Backplanes) 72 Revision 1.
Intel® Server Chassis SC5600 7.1 Chassis Interconnect Chassis Internal Cables The following cables are provided as part of the chassis kit and accessories. Table 62.
Chassis Interconnect 7.1.2 Intel® Server Chassis SC5600 USB Cable and Connectors A 10-conductor USB cable with 10-pin connectors is used for connecting the front panelmounted USB connector to the server board. Figure 35. USB Cable Drawing Figure 36. USB Connector 74 Revision 1.
Intel® Server Chassis SC5600 7.1.3 Chassis Interconnect Hot-swap Fan Cables and Connectors There are four hot-swap fans. The 92 mm fans are labeled fans 1 and 2 and use a white 6-pin connector. The 120 mm fans are labeled fans 3 and 4 and use a 6-pin blue connector. Figure 37. Hot-swap Fan Cable Figure 38. Hot-swap Fan 6-pin Cable Connector Figure 39. Hot-swap 8-pin Fan Cable Connectors Revision 1.
Chassis Interconnect 7.1.4 Intel® Server Chassis SC5600 Serial Cable The 8-conductor cable provided is terminated in a 2x5 header at one end and a 9-pin panel mount D-sub connector on the other. Figure 40. Serial Cable 7.1.5 IPMB cable for Drive Bays (4-pin) The IPMB cable is used for communication between the backplane firmware and the baseboard. Communication events include fan control, drive insertion, drive removal, and drive failures. This interface is also used to update backplane firmware.
Intel® Server Chassis SC5600 Chassis Interconnect Figure 42. SES Cable 7.1.7 SGPIO Cable for Drive Bays (4-pin) The SGPIO cable acts as an enclosure management interface between ESB2 and the backplane and is used by SW RAID to provide basic array device status indication via visual LEDs. Figure 43. SGPIO Cable Revision 1.
System-Compatible Server Boards 8.
Intel® Server Chassis SC5600 9. Upgrade Accessories Upgrade Accessories Principle upgrades include the tool-less four-drive fixed drive bay, four- and six-drive SAS/SATA hot-swap drive bays, and rack mount conversion kit. 9.1 Passive SAS/SATA Hot-swap Drive Bays - AXX6DRV3GR and AXX4DRV3GR The optional hot-swap SAS/SATA hard disk drive bays, AXX6DRV3GR and AXX4DRV3GR, are available for all Intel® Server Chassis SC5600 configurations. It is compatible with either SAS or SATA 3.5-inch hard drives.
Reliability, Serviceability, and Availability Intel® Server Chassis SC5600 10. Reliability, Serviceability, and Availability 10.1 Mean Time Between Failure The following is the calculated Mean Time Between Failures (MTBF) at maximum configuration at 35°C (ambient air). These values are derived using a historical failure rate and multiplied by factors for application, electrical and/or thermal stress and for device maturity. MTBF estimates should be viewed as “reference numbers” only.
Intel® Server Chassis SC5600 Reliability, Serviceability, and Availability 10.2 Serviceability The system is designed for service by qualified technical personnel only. The desired Mean Time To Repair (MTTR) of the system is 30 minutes including the diagnosis of the system problem. To meet this goal, the system enclosure and hardware were designed to minimize the mean time to repair.
Environmental Limits Intel® Server Chassis SC5600 11. Environmental Limits 11.1 System Office Environment Table 65. System Office Environment Summary Parameter Operating temperature Limits +5°C to +35°C with the maximum rate of change not to exceed 10°C per hour. Non-operating temperature -40°C to +70°C Non-operating humidity 90%, non-condensing @ 30°C Acoustic noise 6.
Intel® Server Chassis SC5600 Product Regulatory Compliance 12. Product Regulatory Compliance The Intel® Server Chassis SC5600 is designed and tested to meet the standards and regulations listed below when configured with the specified Intel® server boards. 12.
Product Regulatory Compliance Intel® Server Chassis SC5600 Restriction of Hazardous Substances (RoHS) Compliance: Intel has a system in place to restrict use of banned substances per in accordance to the European Directive 2002/95/EC. Compliance is based on materials banned in the RoHS Directive are either (1) below all applicable substance threshold limits or (2) an approved/pending RoHS exemption applies. Note: RoHS implementing details are not fully defined and may change.
Intel® Server Chassis SC5600 Product Regulatory Compliance 12.5 Electromagnetic Compatibility Notices 12.5.1 USA This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. For questions related to the EMC performance of this product, contact: Intel Corporation 5200 N.E.
Product Regulatory Compliance 12.5.2 Intel® Server Chassis SC5600 FCC Verification Statement This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: This device may not cause harmful interference This device must accept any interference received, including interference that may cause undesired operation. For questions related to the EMC performance of this product, contact: Intel Corporation 5200 N.E.
Intel® Server Chassis SC5600 Product Regulatory Compliance English translation of the preceding notice: 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. Install and use the equipment according to the instruction manual.” 12.5.
Glossary Intel® Server Chassis SC5600 Glossary Word / Acronym Definition ACA Australian Communication Authority ANSI American National Standards Institute ATA Advanced Technology Attachment ATX Auto-Ranging Advanced Technology Extended Power supply that automatically senses and adjust itself to the proper input voltage range (110 VAC or 220 VAC). No manual switches or manual adjustments are needed.
Intel® Server Chassis SC5600 Glossary Word / Acronym Over-current Definition RI Ripple Rise Time Sag SAS SATA SCA SCSI SDK A condition in which a supply attempts to provide more output current than the amount for which it is rated. This commonly occurs if there is a ‘short circuit’ condition in the load attached to the supply.
Glossary 90 Intel® Server Chassis SC5600 Revision 1.
Intel® Server Chassis SC5600 Glossary Revision 1.
