Intel® Server System SR1695WB Technical Product Specification Intel order number: E92079-005 Revision 1.
Revision History Intel® Server System SR1695WB TPS Revision History Date 21st April, 2010 th 24 May, 2010 th 15 October, 2010 1st January, 2011 th 18 March, 2011 Revision Number 1.0 Modifications Initial Release. 1.1 Updated Figure 13. Power Supply Device Address. 1.2 Updated Figure 5. Intel Server Board S5500WB 12V only Components and Figure 6. Back Panel Feature Overview. ® 1.3 Updated Table 1. System Feature Set. 1.4 Updated Table 1. System Feature Set to correct NIC information.
Intel® Server System SR1695WB TPS Table of Contents Table of Contents 1. Introduction .......................................................................................................................... 1 1.1 Chapter Outline ........................................................................................................ 1 1.2 Server Board Use Disclaimer .................................................................................. 1 2. Product Overview ..................................
Table of Contents Intel® Server System SR1695WB TPS 3.4.5 LED indicators ....................................................................................................... 17 3.5 DC output voltages ................................................................................................ 18 3.5.1 Output rating .......................................................................................................... 18 3.5.2 Remote Sensing (+12VRS) ...............................................
Intel® Server System SR1695WB TPS Table of Contents 7.3 Front Panel Connectors ......................................................................................... 37 8. Configuration Jumpers ...................................................................................................... 39 8.1 Force Integrated BMC Update (J1B5) ................................................................... 40 8.2 Password Clear (J1C2) .......................................................................
List of Figures Intel® Server System SR1695WB TPS List of Figures Figure 1. System Overview (HDD and Memory DIMMs are not included in package) ................. 4 Figure 2. Major Chassis Components ........................................................................................... 5 Figure 3. Drive Bay Overview ....................................................................................................... 6 Figure 4. Intel® Server Board S5500WB 12V only ....................................
Intel® Server System SR1695WB TPS List of Tables List of Tables Table 1. System Feature Set ........................................................................................................ 2 Table 2. Chassis Dimensions ....................................................................................................... 4 Table 3. Connector and Component Definitions ........................................................................... 7 Table 4. AC power cord specification .................
List of Tables Intel® Server System SR1695WB TPS Table 43. System Status LED Operation .................................................................................... 36 Table 44. System ID LED Indicator States ................................................................................. 37 Table 45. Front Panel SSI connector pin-out .............................................................................. 37 Table 46. Front Panel USB connector pin-out .......................................
Intel® Server System SR1695WB TPS List of Tables ix Revision 1.
Intel® Server System SR1695WB TPS 1. Introduction Introduction This Technical Product Specification (TPS) provides system specific information detailing the features, functionality, and high-level architecture of the Intel® Server System SR1695WB. You should also reference the Intel® Server Board S5500WB Technical Product Specification to obtain greater detail of functionality and architecture of the server board integrated in this server system.
Product Overview 2. Intel® Server System SR1695WB TPS Product Overview The Intel® Server System SR1695WB is a rack mount 1U server system, purpose-built for high-energy efficiency and lowest total cost of ownership in dense computing applications. The system is integrated with an Intel® Server Board S5500WB and supports up to four hotswap SAS or SATA hard drives. This chapter provides a high-level overview of the system features.
Intel® Server System SR1695WB TPS Product Overview Feature System Fan Support Add-in Adapter Support On-board Video Description • Two sets of CPU fans • Two sets of DIMM fans • One riser slot supporting full-height or low-profile 1U and 1U MD2 PCI Express* x16 riser cards. • Two connectors supporting double- and single-wide Intel® I/O Expansion Modules.
Product Overview 2.1 Intel® Server System SR1695WB TPS System Views Figure 1. System Overview (HDD and Memory DIMMs are not included in package) 2.2 System Dimensions Table 2. Chassis Dimensions Height 43 mm 1.69 inches Width without rails 451.17 mm 17.76 inches Width with rails 482 mm 18.97 inches Depth without CMA 671.08 mm 26.42 inches Weight Chassis – basic configured (1 PSU, 0 drives) Chassis – fully configured (2 PSU, 4 drives) 9.92 kg 15.09 kg 21.85 lbs 33.25 lbs Revision 1.
Intel® Server System SR1695WB TPS 2.3 Product Overview System Components A B C D E Mother Board Power Supply Module External hot-swap HDD Carriers Slim-line Optical Drive System Fans Module F G H I J 1U Chassis Air Duct Front Panel and Front USB module Optional BBU Assembly Position Optional PCI Express* Add-in Card Not shown: Rack slide rail, front bezel, and top cover. Figure 2. Major Chassis Components 2.
Product Overview Intel® Server System SR1695WB TPS B A D C E A System Control Panel B Slim-line drive bay C HDD Power LED D HDD Activity/Fault LED E Hard drive bays 0~3 Figure 3. Drive Bay Overview 2.5 Server Board Overview The chassis is mechanically and functionally designed to support the Intel® Server Board S5500WB 12V only. The following sections provide an overview of the server board feature sets. ® Figure 4. Intel Server Board S5500WB 12V only Revision 1.
Intel® Server System SR1695WB TPS Product Overview The following figure shows the layout of the server board. Each connector and major component is identified by a number or letter, and a description is given below the figure. Figure 5. Intel® Server Board S5500WB 12V only Components Table 3.
Product Overview Intel® Server System SR1695WB TPS DIMM Slot A1 Description JJ Description Internal VGA Connector P DIMM Slot A2 KK BMC Power Cycle Header Q 8-pin Fan Connector (MEM1R) LL USB Connector R 4-pin Fan Connector (MEM1) MM Slot 1 PCI Express* x8 Gen2 S 4-pin Fan Connector (CPU1A) NN SGPIO Connector T 4-pin Fan Connector (CPU1) OO IPMB Connector U HDD Power Connector PP Serial Port B O A Power In G RJ-45 Serial B PS Status LED H NIC 2 connector RJ-45 C NIC 1
Intel® Server System SR1695WB TPS Product Overview A Description Diagnostic LED E Description CPU1 DIMM fault LED B System Status LED F Fan Fault LED C System ID LED G CPU2 DIMM Fault LED D 5V Standby LED Figure 7. Light-Guided Diagnostic LED Locations Rack and Cabinet Mounting Options 2.6 The chassis was designed to support 19 inches wide by up to 30 inches deep server cabinets.
Power Sub-System 3. Intel® Server System SR1695WB TPS Power Sub-System The system includes 450W 1+1 hot swap power supply module and one power distribution board which can support 1U rack server system. Power supply modules have two SKUs: AC module and DC module. AC module is 80 plus energy efficiency, demonstrating climate saver with silver rating. 3.1 Mechanical Overview Both AC and DC power supply modules are in same form factor.
Intel® Server System SR1695WB TPS 3.1.4 Power Sub-System Amperage Rating 13A Cable Type SJT DC Power Supply Module Dimension Overview The casing dimension is W 50.5mm x L 310mm x H 40.2mm: Figure 9. DC Power Supply Module Overview 3.1.5 DC input connector The power supply shall have an internal Positronic Industries PLA03M3BN0A1/AA DC inlet. The mating female connector is Positronic Industries PLA03F7000/AA.
Power Sub-System 3.1.6 Intel® Server System SR1695WB TPS Power Supply Module DC Output Connector Both AC and DC Power Supply Module have a same DC output connector. The DC output connector is the FCI#51731-042LF or equivalent. Signal Pins Power Blade 1 A0 2 PWOK 3 +5VSB C 12VLS +15Vcc +12VRS B PS-ON SCL B/P Fail A PS-Kill/A1 SDA +5VSB D P1 RTN P2 P3 P4 RTN +12V +12V Figure 11. DC Output Power Connector 3.1.7 Power Distribution Board Mechanic Outline Figure 12.
Intel® Server System SR1695WB TPS Power Sub-System Pin 9 10 11 12 Signal GND GND GND GND Pin 21 22 23 24 Signal 12V 12V 12V 12V P2 –PMBus*/Power Signal Connector Connector housing: 7-Pin Table 6. P3 – PMBus*/Power Signal Connector Pin-out Pin 1 3.2 Signal SCL 2 SDA 3 PWR_Alert 4 GND 5 12V_sense 6 PS_ON 7 5VSB AC Voltage Input Specification Note: This section is suitable only for system inserted AC Power Supply Module. 3.2.
Power Sub-System 3.2.4 Intel® Server System SR1695WB TPS AC Line Fuse The power supply shall incorporate one input fuse on the line side for input over-current protection to prevent damage to the power supply and meet product safety requirement. Fuse should be slow blow type or equivalent to prevent nuisance trips. AC inrush current shall not cause the AC line fuse to blow under any conditions.
Intel® Server System SR1695WB TPS Power Sub-System The minimum efficiency at 90~264VAC for the Max load shell be at least 83%. 3.3 DC Voltage Input Specification Note: This section is suitable only for system inserted DC Power Supply Module. 3.3.1 Input Voltage The power supply input DC voltage shall be taken to -75Vdc for 1sec. The range is in Table 12. Table 12. DC Voltage Input Range Minimum -36V Range 1 3.3.
Power Sub-System 3.4 Intel® Server System SR1695WB TPS Control And Indicator Functions Signals that can be defined as low true or high true shall adopt the following conversion: signal# = low true. 3.4.1 PSON#(Power supply enable) Both AC and DC power supply module’s PSON# signal is required to remotely turn on/off the +12V output in the power supply. When the power supply is in standby mode the power supply fan shall be OFF.
Intel® Server System SR1695WB TPS 3.4.3 Power Sub-System PWOK (power good) PWOK is a power good signal and shall be pulled HIGH by the power supply to indicate that all outputs are above their respective lower regulation limits. See Table 17. Table 17. PWOK Signal Characteristics Open Collector/Drain Output From Power Supply.
Power Sub-System 3.5 3.5.1 Intel® Server System SR1695WB TPS DC output voltages Output rating Each DC output shall be capable of supplying the output current shown in Table 20. Table 20. Output rating 3.5.2 Output +12V Min 2A Max 37A +5VSB 0 3A Remote Sensing (+12VRS) The power supply shall have remote sense (ReturnS) to compensate for output ground drops for output voltages: +12V.
Intel® Server System SR1695WB TPS 3.5.6 Power Sub-System Transient loading The power supply shall operate within specified limits and meet regulation requirements over the following transient loading conditions anywhere within the specified load range of the power supply. This shall be tested with no additional bulk capacitance added to the load. Table 23 shows the transient loading. Table 23. Transient loading Output +12V Step Size 60% of max Slew Rate 0.
Power Sub-System 3.5.11 Intel® Server System SR1695WB TPS Output voltage hold-up time Upon loss of input voltage (at nominal), the output voltages shall remain in regulation for at least 16msec. 3.5.12 Overshoot Any output overshoot at turn on shall be less than 10% of the nominal output value. Any overshoot shall recover to within the specified regulation in less than 0.5mS. 3.5.
Intel® Server System SR1695WB TPS Power Sub-System will auto recover from this condition, when the temperature is within specification again. In case of a fan fail, the power supply will latch off. Warning: 80°C (+/-6°C) Critical shut down: 90°C (+/-6°C) Re-start PSU: 75°C (+/-6°C) 3.6.4 Thermal Fan Speed Control(External Control) The power supply Fan shall be external control able through a hardware pin on the connector.
Cooling Sub-System 4. Intel® Server System SR1695WB TPS Cooling Sub-System Several components and configuration requirements make up the cooling sub-system of the chassis. These include processors, chipsets, VR heatsinks, system fan module, power supply fans, CPU air duct, and drive bay population. All are necessary to provide and regulate the air flow and air pressure needed to maintain the system’s thermals when operating at or below the maximum specified thermal limits.
Intel® Server System SR1695WB TPS 4.2 Cooling Sub-System Four-Fan Module The system includes a fan assembly consisting of four managed 40x40x56 mm dual-rotor, multi-speed fans. Four fans are separated into two types with different fan connectors. The center two fans use two 4-pin connectors; each matches the processor fan header on the server board. The outer two fans use one 8-pin connector; each matches the memory fan header on the server board.
Cooling Sub-System Intel® Server System SR1695WB TPS Each memory fan (Group A) uses 8-pin connector, which is connected to fan connector on mother board (Connector BB and Q in Figure 5). Each processor fan (Group B) uses 4-pin connector, which is connected to processor fan connector on mother board (Connector S, T and Y, Z in Figure 5). The fan connector pin-out definition is as follows: Table 28.
Intel® Server System SR1695WB TPS Cooling Sub-System The following provides a description for Air Duct module assembling process. Figure 17. Air Duct Module assembly process 4.5 Drive Bay Population Requirement In order to maintain system thermal requirements, you must fully populate all hard drive bays. Hard drive trays used for hot-swap drives must either have a hard drive installed or not have a hard drive installed.
Peripheral Drive Support 5. Intel® Server System SR1695WB TPS Peripheral Drive Support The system provides a slim-line drive bay that can populate with a SATA optical drive (CDROM, DVD, and DVD/CD-R). The drive is mounted on a tool-less tray, which allows for easy installation into and removal from the system. The slim-line device is not hot-swappable. It is recommended to use Intel® validated optical drive. Figure 19.
Intel® Server System SR1695WB TPS 6. Hard Disk Drive Support Hard Disk Drive Support The server system provides four hard drive bays at the front of the chassis. You can populate all hard drive bays with a carrier-mounted 3.5-inch or 2.5-inch SATA or SAS hard disk drives. 6.1 Hard Disk Drive Bays The server system 1U chassis can support up to four carrier-mounted SATA or SAS 3.5-inch or 2.5-inch hard disk drives.
Hard Disk Drive Support Intel® Server System SR1695WB TPS Figure 22. 2.5-inch HDD Assembly Overview 6.3 Hot-Swap Hard Drive Support The Intel® Server System SR1695WB can support up to four hot-swap SATA or SAS hard drives. Hard drives interface with the passive backplane through a blind mate connection when drives are installed into a hard drive bay using hot-swap drive trays.
Intel® Server System SR1695WB TPS 6.3.2 Hard Disk Drive Support Backplane Block Diagram: Figure 23. Passive Backplane Block Diagram 6.3.3 Backplane Connector Definition The following diagrams show the layout of major components and connectors for backplane. A HDD Connectors 0~3 (left to right) B HDD On-line LEDs 0~3 (left to right) C HDD Act/Fault LEDs 0~3 (left to right) Figure 24. Backplane Component and Connectors (Front View) Revision 1.
Hard Disk Drive Support Intel® Server System SR1695WB TPS A 4-pin power connectors 1~2 for backplane B SATA/SAS connectors 0~3 (right to left) C 4-pin SGPIO connector D 4-pin SMBus connector E 3-pin SES connector F 4-pin IPMB connector Figure 25. Backplane Component and Connectors (Back View) 6.3.4 Backplane LED Support The backplanes support both HDD online and activity/fault LEDs for each of the hard drive connectors. A light duct in HDD tray is used to conduct LED light to front panel.
Intel® Server System SR1695WB TPS 6.3.5 Hard Disk Drive Support Backplane Connector Definition The backplanes include several different connectors. This section defines the purpose and pin out associated with each. 1) Power Connector(J1A1, J5A1) The backplane provides power to the three hard drive bays and the slim-line drive bay. An 8pin power cable is routed from the power supply and plugs into two 4-pin shrouded plastic PC power connector on the backplane.
Hard Disk Drive Support 3) Intel® Server System SR1695WB TPS SATA/SAS Drive Control Connectors (J1A2, J4A1, J6A2, and J8A2) The passive backplane includes four drive control connectors. These are used to attach SATA/SAS cables from the backplane to either the SATA ports on the server board, or to SAS/SATA ports from an add-in card. Each drive control connector has the following pin-out. Table 35.
Intel® Server System SR1695WB TPS 7) Hard Disk Drive Support SCSI Enclosure Services (SES) Connector (J9A2) The backplanes provide connectors to interface with SCSI Enclosure Services (SES) signals. The following tables define the pin-out for each of this connector. Table 39. SES Connector Pin-out Pin # 1 2 3 Description SMB_HBA_I2C_DAT GND SMB_HBA_I2C_CLK Revision 1.
Intel® Server System SR1695WB TPS 7. Front Panel Control and Indicators Front Panel Control and Indicators The Intel® Server System SR1695WB Front Control Panel integrates control buttons, LEDs, and USB ports. The control panel assembly is pre-assembled and fixed to the chassis. A B C D E F G H I Power/Sleep Button System Reset Button Power/Sleep LED System NIC 1 Activity LED System NIC 2 Activity LED System Identification LED System Status LED System Identification Button USB 2.
Front Panel Control and Indicators LED Indicator LAN 1 and LAN 2 System ID System Status Intel® Server System SR1695WB TPS Color Condition What it describes - Off Power Off /ACPI S5 state Green On LAN Link no Access Green Blink LAN Activity - Off No Link Blue On Identify Active via command or button - Off No Identification Green On System Ready/No Alarm Green Blink System ready, but degraded: redundancy lost such as the power supply or fan failure; non-critical temp/voltage thr
Intel® Server System SR1695WB TPS 7.2.2 Front Panel Control and Indicators System Status LED Table 43. System Status LED Operation Color Off N/A State Green/ Amber Both Solid On Criticality Not ready Description Power off or BMC initialization completes if no degraded, noncritical, critical, or non-recoverable conditions exist after power cable plug in Not ready Pre DC Power On – 15-20 second BMC Initialization when AC is applied to the server.
Front Panel Control and Indicators Intel® Server System SR1695WB TPS Notes: 1. The BIOS detects these conditions and sends a Set Fault Indication command to the Integrated BMC to provide the contribution to the system status LED 2. Blink rate is ~ 1Hz at 50% duty cycle. 7.2.3 System Status LED – BMC Initialization When power is first applied to the system and 5V-STBY is present, the BMC controller on the server board requires 15-20 seconds to initialize.
Intel® Server System SR1695WB TPS Front Panel Control and Indicators Pin 17 Signal Name GND (Reset GND) Pin 18 Signal Name SMB_SENSOR_3V3STB_CLK 19 FP_ID_BTN_N 20 FP_CHASSIS_INTRU 21 NC 22 NIC2_ACT_LED_N 23 FP_NMI_BTN_N 24 NIC2_LINK_LED_N Front panel USB connector pin-out is as follows: Table 46. Front Panel USB connector pin-out Pin Signal Name Pin 2 Signal Name Key Pin 1 NC 3 GND 4 GND 5 USB_P 6 USB_P 7 USB_N 8 USB_N 9 +5V 10 +5V Revision 1.
Configuration Jumpers 8. Intel® Server System SR1695WB TPS Configuration Jumpers The following table provides a summary and description of configuration, test, and debug jumpers on the Intel® Server Board S5500WB, which is used in Intel® Server System SR1695WB. Figure 28. Jumper Locations and Functions Revision 1.
Intel® Server System SR1695WB TPS Configuration Jumpers Force Integrated BMC Update (J1B5) 8.1 When performing a standard BMC firmware update procedure, the update utility places the BMC into an update mode, allowing the firmware to load safely onto the flash device. In the unlikely event the BMC firmware update process fails due to the BMC not being in the proper update state, the server board provides a BMC Force Update jumper (J1B5) that forces the BMC into the proper update state.
Configuration Jumpers 5. 6. 7. 8. 9. Intel® Server System SR1695WB TPS Power up the server, wait 10 seconds or until POST completes. Power down the server. Open the chassis and move the jumper back to default position, covering pins 1 and 2. Close the server chassis. Power up the server. The password is now cleared and you can reset it by going into the BIOS setup. The BIOS password is now cleared. BIOS Recovery Mode (J1C3) 8.
Intel® Server System SR1695WB TPS 8.5 Configuration Jumpers Video Master (J6A3) This jumper is used to set the video output port if both internal and external add-in video card are used. Table 51. Video Master Jumper Jumper Position 1-2 2-3 8.6 Mode of Operation Internal External Note Internal connector overrides if both connectors are used. External connector overrides if both connectors are used. Serial Interface (J6A2) This jumper is used to set the communication mode of serial port. Table 52.
PCI Riser Card and Assembly 9. Intel® Server System SR1695WB TPS PCI Riser Card and Assembly Each Intel® Server System SR1695WB includes one PCI Express* riser slot that accepts one PCI Express* x16 full height or low profile adapter card. The riser also accommodates PCI Express x8, x4, and x1 adapters. Figure 29. 1U PCI Express* Riser Card Mechanical Drawing Figure 30. Intel® Server System SR1695WB PCI Express* Riser Assembly Note: The PCI Express* riser card is separately orderable as spare.
Intel® Server System SR1695WB TPS Environmental and Regulatory Specifications 10. Environmental and Regulatory Specifications 10.1 System Level Environmental Limits The following table defines the system level operating and non-operating environmental limits. Table 53.
Environmental and Regulatory Specifications 10.3 Intel® Server System SR1695WB TPS Replacing the Backup Battery The lithium battery on the server board powers the real time clock (RTC) for up to 10 years in the absence of power. When the battery starts to weaken, it loses voltage, and the server settings stored in CMOS RAM in the RTC (for example, the date and time) may be wrong. Contact your customer service representative or dealer for a list of approved devices.
Intel® Server System SR1695WB TPS Environmental and Regulatory Specifications Notifications to Users on Product Regulatory Compliance and Maintaining Compliance – To ensure regulatory compliance, you must adhere to the assembly instructions in this guide to ensure and maintain compliance with existing product certifications and approvals. Use only the described, regulated components specified in this guide.
Environmental and Regulatory Specifications Intel® Server System SR1695WB TPS Table 55.
Intel® Server System SR1695WB TPS Compliance Regional Description Taiwan 10.6 10.6.1 Environmental and Regulatory Specifications Compliance Reference Compliance Reference Marking Example BSMI CNS13438 BSMI CNS14336 R33025 Electromagnetic Compatibility Notices USA This device complies with Part 15 of the FCC Rules.
Environmental and Regulatory Specifications Intel® Server System SR1695WB TPS All cables used to connect to peripherals must be shielded and grounded. Operation with cables, connected to peripherals that are not shielded and grounded may result in interference to radio and TV reception. 10.6.
Intel® Server System SR1695WB TPS 10.6.6 Environmental and Regulatory Specifications KCC (Korea) Following is the KCC certification information for Korea. 인증번호: CPU-SR1695 (A) 10.7 Rack Mount Installation Guidelines Anchor the equipment rack: The equipment rack must be anchored to an unmovable support to prevent it from falling over when one or more servers are extended in front of the rack on slides. You must also consider the weight of any other device installed in the rack.
Environmental and Regulatory Specifications 10.7.2 Intel® Server System SR1695WB TPS If DC power supplies are installed: Connection with a DC (Direct Current) source should only be performed by trained service personnel. The server with DC input is to be installed in a Restricted Access Location in accordance with articles 110-16, 110-17, and 110-18 of the National Electric Code, ANSI/NFPA 70. The DC source must be electrically isolated by double or reinforced insulation from any hazardous AC source.
Intel® Server System SR1695WB TPS Compliance Regional Description California Environmental and Regulatory Specifications Compliance Reference CA. Lithium Perchlorate insert California Code of Regulations, Title 22, Division 4.5; Chapter 33: Best Management Practices for Perchlorate Materials. Compliance Reference Marking Example Special handling may apply. See www.dtsc.ca.gov/hazardous waste/perchlorate This notice is required by California Code of Regulations, Title 22, Division 4.
Environmental and Regulatory Specifications Compliance Description Intel® Server System SR1695WB TPS Compliance Reference Applied to product if more than one power cord is used. Ground Connection Country of Origin 60950 Deviation for Nordic Countries Logistic Requirements Applied to products to indicate where product was made. Revision 1.4 Compliance Reference Marking Example This unit has more than one power supply cord.
Intel® Server System SR1695WB TPS Appendix A: Integration and Usage Tips Appendix A: Integration and Usage Tips Before attempting to integrate and configure your system, you should reference this section, which provides a list of useful information. After the system is integrated with processors, memory, and peripheral devices, the FRUSDR utility must be run to load the proper Sensor Data Record data to the integrated Server Management subsystem.
Appendix B: POST Code LED Decoder Intel® Server System SR1695WB TPS Appendix B: POST Code LED Decoder During the system boot process, the BIOS executes a number of platform configuration processes, each of which is assigned a specific hex POST code number. As each configuration routine is started, the BIOS displays the POST code to the POST Code Diagnostic LEDs on the back edge of the server board.
Intel® Server System SR1695WB TPS Appendix B: POST Code LED Decoder Table 56. POST Progress Code LED Example Upper Nibble LEDs LEDs Status Lower Nibble LEDs MSB LED #7 8h ON LED #6 4h OFF LED #5 2h ON LED #4 1h OFF LED #3 8h ON LED #2 4h ON LED #1 2h OFF LSB LED #0 1h OFF 1 0 1 0 1 1 0 0 Results Ah Ch Upper nibble bits = 1010b = Ah; Lower nibble bits = 1100b = Ch; the two are concatenated as ACh. Table 57.
Appendix B: POST Code LED Decoder Intel® Server System SR1695WB TPS Diagnostic LED Decoder 1 = On, 0=Off Upper Nibble Lower Nibble Checkpoint LED MSB 8h #7 4h #6 2h #5 1h #4 8h #3 4h #2 2h #1 LSB 1h #0 0xAAh 1 0 1 0 1 0 1 0 0xABh 0xACh 0xADh 0xAEh 0xAFh 1 1 1 1 1 0 0 0 0 0 1 1 1 1 1 0 0 0 0 0 1 1 1 1 1 0 1 1 1 1 0xB0h 0xB1h 0xB2h 0xB3h 0xB4h 0xB5h 0xB6h 0xB7h 0xB8h 0xB9h 0xBAh 0xBBh 0xBCh 0xBDh 0xBEh 0xBFh 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1
Intel® Server System SR1695WB TPS Diagnostic LED Decoder 1 = On, 0=Off Upper Nibble Lower Nibble Checkpoint LED 0x7Ah 0x7Bh MSB 8h #7 0 0 4h #6 1 1 2h #5 1 1 1h #4 1 1 0x90h 0x91h 0x92h 0x93h 0x94h 0x96h 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 0x98h 0x99h 0x9Ah 0x9Bh 0x9Ch 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 0xA8h 0xA9h 0xAAh 0xABh 0xACh 0xADh 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 0xB0h 0xB1h 1 1 0 0 1 1 1 1 0xB2h 1 0 1 1 0xB3h 0xB4h 1 1 0 0 1 1 1 1
Appendix B: POST Code LED Decoder Intel® Server System SR1695WB TPS Diagnostic LED Decoder 1 = On, 0=Off Upper Nibble Lower Nibble Checkpoint LED 0xE4h 0xE5h 0xE6h MSB 8h #7 1 1 1 4h #6 1 1 1 2h #5 1 1 1 1h #4 0 0 0 8h #3 0 0 0 0xE7h 0xE8h 0xE9h 0xEAh 0xEBh 0xECh 0xEDh 0xEEh 0xEFh 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 0x30h 0x31h 0x34h 0x35h 0x36h 0x3Eh 0x3Fh 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 1 1 4h #2
Intel® Server System SR1695WB TPS Appendix C: Video POST Code Errors Appendix C: Video POST Code Errors Whenever possible, the BIOS outputs the current boot progress codes on the video screen. Progress codes are 32-bit quantities plus optional data. The 32-bit numbers include class, subclass, and operation information. The class and subclass fields point to the type of hardware being initialized. The operation field represents the specific initialization activity.
Appendix C: Video POST Code Errors Error Code 8141 8160 8161 8170 8171 8180 8181 8190 8198 8300 84F2 84F3 84F4 84FF 8500 8520 8521 8522 8523 8524 8525 8526 8527 8528 8529 852A 852B 852C 852D 852E 852F 8540 8541 8542 8543 8544 8545 8546 8547 8548 8549 854A 854B 854C 854D 854E 854F 8560 8561 8562 8563 8564 8565 8566 8567 Intel® Server System SR1695WB TPS Error Message Processor 02 Failed FRB-3 Timer.
Intel® Server System SR1695WB TPS Error Code 8568 8569 856A 856B 856C 856D 856E 856F 8580 8581 8582 8583 8584 8585 8586 8587 8588 8589 858A 858B 858C 858D 858E 858F 85A0 85A1 85A2 85A3 85A4 85A5 85A6 85A7 85A8 85A9 85AA 85AB 85AC 85AD 85AE 85AF Appendix C: Video POST Code Errors Error Message Response DIMM_C1 Component encountered a Serial Presence Detection (SPD) fail error. DIMM_C2 Component encountered a Serial Presence Detection (SPD) fail error.
Appendix C: Video POST Code Errors Error Code 8601 8602 8603 8604 9000 9223 9226 9243 9246 9266 9268 9269 9286 9287 9288 92A3 92A9 92C6 92C7 92C8 94C6 94C9 9506 95A6 95A7 95A8 9609 9641 9667 9687 96A7 96AB 96E7 0xA022 0xA027 0xA028 0xA421 0xA500 0xA501 0xA5A0 0xA5A1 0xA5A4 0xA6A0 Intel® Server System SR1695WB TPS Error Message Override jumper is set to force boot from lower alternate BIOS bank of flash ROM Watchdog timer expired (secondary BIOS may be bad!) Secondary BIOS checksum fail Chipset Reclaim
Intel® Server System SR1695WB TPS Appendix D: Jumper Block Settings and Usage Appendix D: Jumper Block Settings and Usage The server board has several 2-pin and 3-pin jumper blocks that can be used to configure, protect, or recover specific features of the server board. Pin 1 on each jumper block is denoted by an “*” or “▼”.
Appendix D: Jumper Block Settings and Usage Intel® Server System SR1695WB TPS 1. Power down server. Do not unplug the power cord. 2. Open the chassis. For instructions, see your server chassis documentation. 3. Move jumper (J1B6) from the default operating position, covering pins 1 and 2, to the password clear position, covering pins 2 and 3. 4. Close the server chassis. 5. Power up the server, wait 10 seconds or POST completes. 6. Power down the server. 7.
Intel® Server System SR1695WB TPS Appendix D: Jumper Block Settings and Usage 2. Insert recovery media. 3. Switch the recovery jumper. Details regarding the jumper ID and location can be obtained from the Board EPS for that Platform. 4. Power ON the system. 5. The BIOS POST screen will appear displaying the progress, and the system automatically boots to the EFI SHELL. 6. The Startup.nsh file executes, and initiates the flash update (IFlash32.efi) with a new capsule file (*Rec.CAP).
Appendix D: Jumper Block Settings and Usage Intel® Server System SR1695WB TPS J6A3, 2-3 jumpered: External video connector is primary, but video can come out of internal video connector if you connect to it. Serials Interface Setting (J6A2) Table 64. Serials Interface Setting (J6A2) Pins Mode Description 1–2 DCD to DTR Data Carrier Detect 3–4 DSR to DTR Data Set Ready Revision 1.
Intel® Server System SR1695WB TPS Glossary Glossary Term ACPI Definition Advanced Configuration and Power Interface AP Application Processor APIC Advanced Programmable Interrupt Control ASIC Application Specific Integrated Circuit ASMI Advanced Server Management Interface BIOS Basic Input/Output System BIST Built-In Self Test BMC Baseboard Management Controller Bridge Circuitry connecting one computer bus to another, allowing an agent on one to access the other BSP Bootstrap Processor
Glossary Intel® Server System SR1695WB TPS Term Definition IR Infrared ITP In-Target Probe KB 1024 bytes KCS Keyboard Controller Style LAN Local Area Network LCD Liquid Crystal Display LED Light Emitting Diode LPC Low Pin Count LUN Logical Unit Number MAC Media Access Control MB 1024KB MCH Memory Controller Hub MD2 Message Digest 2 – Hashing Algorithm MD5 Message Digest 5 – Hashing Algorithm – Higher Security ms milliseconds MTTR Memory Type Range Register Mux Multiplexo
Intel® Server System SR1695WB TPS Glossary Term Definition SSI Server System Infrastructure TBD To Be Determined TIM Thermal Interface Material UART Universal Asynchronous Receiver/Transmitter UDP User Datagram Protocol UHCI Universal Host Controller Interface UTC Universal time coordinate VID Voltage Identification VRD Voltage Regulator Down Word 16-bit quantity ZIF Zero Insertion Force Revision 1.
Reference Documents Intel® Server System SR1695WB TPS Reference Documents Refer to the following documents for additional information: Intel® Server Board S5500WB Technical Product Specification Intel® Server System SR1695WB Service Guide Revision 1.
