User Guide ® Great M inds Think C O M P U T E R S . N E T W O R K S .
Contents 1. Overview 5 Introduction 5 2. Chassis Specifications Chassis Specification Physical Specifications Chassis Front Controls and Indicators Front Panel Controls and Indicators Chassis Back I/O Ports and Features Power Supply System Cooling Security Rack and Cabinet Mounting Options Optional Peripherals 3.
Installing the Fan Assembly Installing the Power Cord and Strain Relief Strap Adding Components to the Server Board Installing Peripherals 5. Installing the System in a Rack 34 35 36 41 51 Removing the Rails Attach Inside Rails to Chassis Attach Rail Brackets to Posts Attach a Rail Assembly to a Front Bracket Attach a Rail Assembly to a Rear Bracket Install the Chassis on the Rails 52 52 53 54 55 55 6.
Software Updates Software Update Package Individual Updates Upgrading the BIOS Recovering the BIOS 96 96 98 99 99 7. Intel Server Control 104 About Intel Server Control Managing Remote Servers Server Management Tools Client System Setup Utility The Service Partition and Remote Diagnostics DMI Explorer Management Consoles Connecting to a Remote Server Paging an Administrator Using the Intel Server Control Console ISC Console Button Bar Server Menu Options View Menu Options 8.
Current Usage Calculating Power Consumption Worksheet, Calculating DC Power Usage Worksheet, Total Combined Power Used by the System 12. Appendix 139 139 140 141 142 Contacting Viglen 142 13. Notes 143 14. Viglen, EMC and the ‘CE’ mark 146 15. Copyrights and Trademarks 147 16.
1. Overview Introduction This manual describes the Viglen SX220 system and the SCB2 motherboard. The motherboard is the most important part of your computer. It contains all of the CPU, memory and graphics circuitry that makes the computer work. The motherboard contains the very latest in CPU design, the Intel Pentium III processors, which include MMX, Internet Streaming SIMD Extensions and Tualatin technology.
2. Chassis Specification The SX220 system consists of the following major components: • The chassis and its subassemblies, device bays, and front bezel • A slim-line CD-ROM drive & Floppy Disk Drive • The power supply • The cooling system • SCB2 Motherboard & PCI riser cards The major component of the kit is the chassis. It is important to become familiar with the chassis both externally and internally and the security features it provides.
Physical Specifications The SX220 chassis is designed as a 2U 19” Rackmount unit. The server will be supplied complete with a pair of industry standard 19” Rails, handles and all of the necessary nuts and bolts.
Front Panel Controls and Indicators Figure 2: Front Panel Controls and Indicators A – NIC 1 activity LED B – NIC 2 activity LED C – System status LED D – Fixed disk drive status LED E – ID LED F – ID button G – NMI button (tool assisted) H – Reset button 8 I – Power/sleep LED J – Power button K – FDD activity LED L – CD-ROM activity LED M – CD-ROM drive eject button N – Manual CD-ROM drive eject button O – FDD eject button Viglen SX220 User Guide
Chassis Back I/O Ports and Features The back panel provides connectors for the server board, slots for add-in cards, and the power supply for the server. Figure 3 identifies the features of the back panel.
Power Supply The power supply consists of the power supply bay and one power supply module. A second power supply module can be purchased to provide a redundant, 1+1 system. With either configuration, the power supply provides 350 watts of power and is designed to minimise EMI. The power supply operates within the following voltage ranges and is rated as follows: 100 - 120 V~ at 50/60 Hertz (Hz); 6.3A maximum 200 - 240 V~ at 50/60 Hz; 2.
of the system, some 2-post relay racks may not, causing the racks to fail. Only use relay racks that are specifically designed to support the weight and stresses of a 2post front-mount only chassis. Optional Peripherals The SX220 server chassis provides six hard drive bays at the front of the chassis. An optional seventh drive may be used in the flex bay. All hard drive bays may be populated with a tray mounted 3½” hard disk drive.
3. Motherboard Specification Server Board Features Table 2: Server Board Features Feature Processor Memory Description Dual processor slots supporting Intel® Pentium® III processors in a Socket370 Flip Chip Pin Grid Array (FC-PGA) package. Six dual inline memory module (DIMM) slots support: • Graphics Video Memory PCI bus SCSI Network System I/O Form Factor 12 SDRAM DIMMs: 133 MHz, ECC, registered, PC/133 compliant, 72-bit, 168-pin, gold contact, 3.3V. A 1U chassis requires low-profile (LP) 1.
Server Board Connector and Component Locations Figure 4: Server Board components A – Speaker B – ID LED C – Battery D – Diagnostic LEDs (POST code) E – 66 MHz/64-bit PCI riser slot F – A DIMM slots G – I/O ports H – ICMB connector I – COM 1 serial header J – Chassis intrusion connector K – 66 MHz/64-bit PCI riser slot (LP) L – USB 3 & 4 header M – Sys fan 3 connector N – CPU 2 fan connector O – Secondary processor socket P – Primary processor socket Q – Sys fan 2 connector R – CPU 1 fan connector S – Sys
Back Panel Connectors Figure 5: Back Plane Connectors A – USB 1 connector B – Video connector C – SCSI connector D – NIC 2 RJ-45 connector E – Green Status LED F – Yellow Status LED 14 G – NIC 1 RJ-45 connector H – Green Status LED I – Yellow Status LED J – PS/2 keyboard/mouse connector K – RJ-45 serial port L – USB 2 connector Viglen SX220 User Guide
Processor The SCB2 motherboard accommodates one or two Intel Pentium III processors with 512k cache in the FC-PGA2 package. This processor uses the 0.13 micron technology and offers advanced performance. The processor external interface operates at a maximum of 133 MHz. Memory The system board contains six 168-pin DIMM slots each supporting 72-bit ECC (64bit main memory plus ECC) registered SDRAM DIMMs (PC-133 compatible). Memory is two-way interleaved and partitioned in three banks.
Video The SCB2 motherboard uses an ATI RAGE XL PCI graphics accelerator with 8 MB of video SDRAM that supports all standard IBM VGA modes. The embedded SVGA video subsystem supports: • Pixel resolutions up to 1600 x 1200 under 2D and 1024 x 768 under 3D • CRT and LCD monitors up to 100 Hz vertical refresh rate The server board supports disabling of the onboard video through the BIOS setup menu or when a plug in video card is installed in any of the PCI slots.
Network Controller NOTE: To ensure EMC product regulation compliance, the system must be used with a shielded LAN cable. The server board uses two Intel® 82550PM Fast Ethernet Controllers and supports two 10Base-T/100Base-TX network subsystems. The 82550 PM controller supports the following features: • 32-bit PCI, CardBus master interface • Integrated IEEE 802.3 10Base-T and 100Base-TX compatible PHY • IEEE 820.
• Adaptive Load Balancing (ALB) - creates a team of 2 - 8 adapters to increase transmission throughput. Also includes AFT. Works with any 10Base-TX or 100Base-TX switch. • Fast EtherChannel (FEC) or Intel® Link Aggregation - creates a team of up to 8 adapters to increase transmission and reception throughput. Also includes AFT. Requires a FEC-enabled switch. To set up an option, read the instructions in the Windows NT 4.0 or NetWare 4.1x readme files. General Configuration Notes 1.
Mixed Adapter Teaming AFT supports up to eight server adapters per team, in any mix. Adaptive Load Balancing Adaptive Load Balancing (ALB) is a simple and efficient way to increase your server’s transmit throughput. With ALB you group server adapters in teams to provide an increased transmit rate (up to 8 Gbps) using a maximum of eight adapters. The ALB software continuously analyses transmit loading on each adapter and balances the rate across the adapters as needed.
The 8 pins of the RJ45 connector can be configured to match either of two pin-out standards used by serial port concentrators. To accommodate either standard, the J6A2 jumper block located directly behind the rear RJ45 serial port must be jumpered appropriately according to which standard is desired. NOTE: By default, as configured in the factory, the SCB2 baseboard will have the rear RJ45 serial port configured to support a DSR signal.
NOTE: The RJ45-to-DB9 adapter should match the configuration of the serial device used. One of two pin-out configurations are used depending on whether the serial device requires a DSR or DCD signal. The final adapter configuration should also match the desired pin-out of the RJ45 connector, as it can also be configured to support either DSR or DCD.
be configured through ISC to respond to an intrusion a number of ways, including powering down or locking the keyboard. Software Locks The BIOS Setup and the System Setup Utility (SSU) provide a number of security features to prevent unauthorised or accidental access to the system. Once the security measures are enabled, you can access the system only after you enter the correct password(s).
• May enter the user password to enter BIOS Setup or the SSU. However, you will not be able to change many of the options. • Must enter the supervisor password if you want to enter BIOS Setup or the SSU and have access to all of the options. • May enter either password to boot the server if Password on Boot is enabled in either the BIOS Setup or SSU. • May enter either password to exit secure mode. Secure Mode Configure and enable the secure boot mode by using the SSU.
The server can boot and run the operating system, but mouse and keyboard input is not accepted until the user password is entered. At boot time, if a CD is detected in the CD-ROM drive or a diskette in drive A, the system prompts for a password. When the password is entered, the server boots from CD or diskette and disables the secure mode. If there is no CD in the CD-ROM drive or diskette in drive A, the server boots from drive C and automatically goes into secure mode.
Password menu of the User Password Option menu found in the Security Subsystem Group. Boot without keyboard Specify the boot sequence To clear the password if you cannot access Setup, change the Clear Password jumper (see Chapter 9). The system can boot with or without a keyboard. During POST, before the system completes the boot sequence, the BIOS automatically detects and tests the keyboard if it is present and displays a message. The sequence that you specify in setup will determine the boot order.
4. Assembling the System This chapter will give a step-by-step guide of installing the server board and the main components in the system. It will give information on how to add add-in cards and upgrade processors and memory along with other relevant information that may be of important use. Before You Begin! Before you start the assembly process you will need to have the right tools available to you and you will need to make sure you follow certain basic safety precautions.
Warnings and Cautions! These warnings and cautions apply whenever you remove the access cover to access components inside the server. Only a technically qualified person should integrate and configure the server. Before removing the access cover for any reason, observe these safety guidelines. • Turn off all peripheral devices connected to the server. • Turn off the server by pressing the power button on the front of the chassis. Then unplug the AC power cord from the chassis or wall outlet.
Installing the Server Board Installing the server board consists of the following steps: • Removing the cover, Riser cards and fan assembly. • Mounting the server board in the chassis. • Cabling the server board to the other chassis components. • Adding processors and memory to the server board. • Replacing riser cards, fan assembly and the top cover. Removing the Cover 1.
2. Lift straight up and remove it from the chassis. 3. Insert your finger in the plastic loop on riser card (B). 4. Pull straight up and remove it from the chassis. 5. Discard the protective foam blocks. Figure 9: Removing the Riser Cards Removing the Fan Assembly 1. At the end of the fan assembly closest to the chassis centerline, lift up on tab (A). 2. While lifting up on the tab, slide the fan assembly toward the chassis centerline (B) until it releases from the chassis. 3.
Figure 10: Removing the Fan Assembly Installing the Server Board 1. Ensure that the Mylar insulator sheet is seated securely over the standoffs, is laying flat on the chassis floor, and that the edge of the sheet is seated below the studs in the rear chassis wall. 2. Remove the server board from its packaging and antistatic bag. 3. While placing the board on the chassis standoffs, carefully position the board I/O connectors in the rear chassis I/O openings. 4.
Figure 11: Attaching the Server Board Viglen SX220 User Guide 31
Routing Cables Figure 12: Routing Cables 1. Route the backplane power cable (A) from the power supply to the backplane board and connect it to the white 6-pin connector. 2. Route the server board power cable (B) from the power supply to the cable clip and connect it to the white 24-pin connector on the server board. Firmly press the two connectors together until they are fully seated. 3. If you are not installing a tape drive, coil the tape drive power cable, wire tie the coil, and place it on the floor.
5. Connect the end of the flex circuit cable (C) labeled to the floppy/front panel/IDE connector on the server board. Route the cable to the backplane board and connect the opposite cable end to the matching connector on the backplane. CAUTION! After connection of cable (C) in step 5, ensure that each cable connector is properly seated in the board connector. The connector should be parallel to its board connector and not cocked to one side. If in doubt, remove, reinsert, and recheck. 6.
Installing the Fan Assembly CAUTION! When installing the fan assembly, avoid pinching cables routed in the area. 1. Ensure the USB cable is routed in the corner where the chassis floor meets the sidewall. 2. Position the fan assembly as shown in Figure 14 and lower it to the chassis floor. 3. While pressing down on the fan assembly, slide it (A) toward the chassis sidewall. 4. Check for the following: • The floor tabs have engaged the holes in the bottom of the fan assembly.
Figure 14: System Fan Connectors 6. Connect the USB cable to the 10-pin USB connector on the server board (Figure 4, Position L on page 13). Installing the Power Cord and Strain Relief Strap NOTE: If you will be placing your server in a rack, wait to install the power cord until after the server is in the rack. 1. Insert the expansion nipple (A) of the strain relief strap into the chassis hole. 2. Plug the power cord into the power supply but not into the power source. 3.
Adding Components to the Server Board After installing the server board, you must add the desired number of processors and memory DIMMs. NOTE: Once the server board and its components are installed, you are done assembling the system unless you have optional peripherals or add-in cards you wish to install. If you need to install these components, continue on to the next section. Otherwise, install the cover and bezel and continue on to Chapter 5, “Installing the System in a Rack” found on page 51.
Figure 17: Inserting the Processor 7. Following the instructions packaged with the applicator, apply thermal grease to the processor. 8. Position the heat sink slot (2) above the socket/processor slot (3). 9. Aligning the raised metal surfaces, place the heat sink on top of the processor. 10. Install the heat sink clip with pin (1) inserted into slot (2).
Figure 18: Installing the Heatsink A. Heat sink retention clip B. Heat sink C. Socket and processor CAUTION! Use care when closing the locking lever—do it slowly. 11. Slowly close the locking lever (A) until it contacts tab (B), see Figure 19.
Figure 19: Locking Heatsink Lever 12. Install the fan on the processor heat sink making sure that it is seated flat on the heatsink. 13. Connect the fan to (A) if it is on the primary processor or to (B) if it is on the secondary processor.
Install the Processor Terminator If you are installing only one processor, you must install a terminator in the secondary processor socket (A). If you are installing two processors, skip this section. 1. Raise the locking bar (B) on the socket. 2. Aligning the two corner marks on the terminator with the handle-side of the socket (C), insert the terminator into the socket. Lower the locking bar completely (D).
Figure 22: Installing DIMMs Installing Peripherals Peripherals and add-in cards are not included in your system and must be purchased separately. The following sections describe how to install PCI add-in cards, hard disk drives, a CD-ROM drive/floppy disk, and a tape drive. Installing a PCI Card on a Riser Card The riser card nearest the chassis sidewall supports three Low Profile (LP) PCI addin cards.
3. Firmly push the PCI card connector into the riser card slot until it is fully seated. 4. Close the retainer clip (A). Ensure the clip is latched. Figure 23: Installing a PCI card of the riser Installing a Riser Card on the Server Board 1. Insert the riser card connector into the server board slot while aligning the tabs on the rear retention bracket with the holes in the chassis. CAUTION! Press the riser card straight down into the slot.
Figure 24: Installing a Riser Card Installing a Hard Drive The server can support up to seven hot swappable hard drives: six hard drives in the drive bays, plus one in the flex bay. CAUTION! To allow proper airflow and server cooling, all drive bays must contain either a carrier with a hard drive installed or a carrier with an air baffle installed. 1. If present, remove the front bezel. 2. If the drive carrier is installed in the drive bay, remove it. 3.
Figure 25: Hard Drive Carrier 5. Remove the hard drive from its wrapper and place it on an anti-static surface. 6. Set any jumpers and/or switches on the drive according to the drive manufacturer’s instructions. 7. With the drive circuit-side-down (Figure 26, A), position the connector end (E) so that it is facing the back of the carrier (B). 8.
11. Reinstall a carrier/air baffle in any bays where you are not installing a carrier/drive. Installing a CD-ROM Drive/FDD Module The SX220 server is supplied with a CD-ROM drive and a floppy disk drive already installed in the Flex Bay. The blow steps will help you to re-install the unit if it has been removed to make way for an additional SCSI hard disk drive. 1. Remove the filler panel and plug from the front of the chassis. 2.
NOTE: Using the legacy IDE connector on the SCB2 server board to support an IDE peripheral device in the SX220 server is not a supported configuration. Using this connector in the SX220 server may produce unreliable operation of the IDE device and may result in data loss. If you install a SCSI tape drive, you can connect it one of two ways: • To the on-board SCSI controller. This requires that you connect the backplane to an add-in RAID or SCSI controller. • To an add-in SCSI controller board.
CAUTION! Carefully route cables to minimise airflow blockage and cooling problems. Suggested Tape Drive Cabling A peripheral power cable (4-pin connector) is included in the cable output from the power supply. Route and connect to the tape drive before the SCSI cable is installed. Connecting to the On-board SCSI Controller 1. Obtain a SCSI cable with an unfolded length of 26-inches. 2. Flatten the cable and fold it in half beginning about 1-inch from the tape drive end (see Figure 29, A).
Figure 30: Onboard SCSI Connector Connecting to a SCSI Controller on a Full-height PCI Card 1. Obtain a SCSI cable with an unfolded length of 26-inches. 2. Flatten the cable and fold it in half beginning about 1-inch from the tape drive end (see Figure 29, A). Continue folding for a distance of about 10-inches. 3. Fold the cable in half again and secure with electrical tape. 4.
Connecting to a SCSI Controller on a Low Profile PCI Card 1. Obtain a SCSI cable with an unfolded length of 26-inches. 2. Flatten the cable and fold it in half for the full length, leaving about 1-inch at each end (see Figure 32). 3. Fold the cable in half again and secure with electrical tape. 4. Connect the cable to the tape drive (see Figure 33, A) and carefully route the folded and taped section on the chassis floor between the fan assembly (C) and the tape drive (A). 5.
Installing the Bezel Place the bezel between the chassis handles and push it toward the front of the chassis until it snaps into place.
5. Installing the System in a Rack CAUTION! 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 it on slide assemblies. The equipment rack must be installed according to the manufacturer's instructions. You must also consider the weight of any other device installed in the rack. MAIN AC POWER DISCONNECT: You are responsible for installing an AC power disconnect for the entire rack unit.
Removing the Rails 1. Fully extend a rail assembly (Figure 35). The finger tab (D) for the extension lock is revealed. 2. Press the finger tab and slide the inside rail (C) from the middle rail (B) until it completely separates. NOTE: The middle rail (B) and outer rail (A) cannot be separated. Figure 35: Removing the Rails A. B. C. D. Outer rail Middle rail Inner rail Finger tab on extension lock Attach Inside Rails to Chassis 1.
Figure 36: Attaching the Rails A. B. C. D. E. Inside rail #6-32 x 3/16-inch screw Attachment hole Attachment tab Attachment hole for cable manager (available from others) Attach Rail Brackets to Posts 1. Using two screws with washers (Figure 38, A), attach one nut bar (B) at the same height on the inside of each rack post. Do not completely tighten the screws— leave them loose enough to allow insertion of the brackets in the next step. 2.
Attach a Rail Assembly to a Front Bracket 1. Position a rail assembly (middle and outer rails) with its black plastic end caps toward the rear of the rack and its outer rail closest to the brackets. 2. Align the front screw hole (Figure 38, C) in the outer rail (B) with the threaded hole (D) nearest the front of the front bracket (A) and fit the rail assembly into the front and rear brackets. 3.
A. B. C. D. E. F. G. Front bracket Outer rail Screw hole Threaded hole Not Shown Access hole #6-32 x 3/16-inch screw Attach a Rail Assembly to a Rear Bracket 1. Slide the middle rail toward the front until the rear bracket area is accessible. 2. Attach the rear end of the outer rail (B) to the rear bracket (A) with at least one screw (C). If possible, attach at two places. 3. In the same manner, attach the other rail assembly to the other side. Figure 39: Attaching Rail Assembly to Rear Bracket A.
Figure 40: Rails Fully Extended CAUTION! Lifting and placing the chassis in the rails is a two-person job. If needed, use an appropriate lifting device. A fully loaded Viglen SX220 server weighs approximately 23.1 kg (51 lbs.). 2. With the chassis front facing you, lift the chassis and carefully insert the rails attached to the chassis in the extended rails. 3. Slide the chassis toward the rear of the cabinet until the rails lock together. 4.
6. Configuration Software and Utility This chapter describes the Power-On Self-Test (POST) and server configuration utilities. The table below briefly describes the utilities.
To remove the splash screen. Power-On Self-Test (POST) Each time you turn on the system, POST starts running. POST checks the server board, processor, memory, keyboard, and most installed peripheral devices. During the memory test, POST displays the amount of memory that it is able to access and test. The length of time needed to test memory depends on the amount of memory installed. POST is stored in flash memory. 1. Turn on your video monitor and server. After a few seconds POST begins to run. 2.
Using BIOS Setup This section describes the BIOS Setup options. Use Setup to change the server configuration defaults. You can run Setup with or without an operating system being present. Setup stores most of the configuration values in battery backed CMOS; the rest of the values are stored in flash memory. The values take effect when you boot the server. POST uses these values to configure the hardware; if the values and the actual hardware do not agree, POST generates an error message.
Main Menu You can make the following selections on the Main Menu itself. Use the submenus for other selections. Table 8: Main Menu Features Feature Choices Description System Time System Date Diskette A HH:MM:SS MM/DD/YYYY Disabled 1.44/1.25 MB Disabled 1.44/1.
Processor Retest Disabled Enabled Select yes for the BIOS to clear historical processor status and retest all processors on the next boot. Processor Serial Number Enabled Disabled If enabled, the system records the serial number of each processor. Processor 1 CPU ID N/A Reports Stepping for Processor 1. Processor 1 L2 Cache Size N/A Reports L2 Cache Size for Processor 1. This feature does not appear if processor 1 is absent or disabled. Processor 2 CPU ID N/A Reports Stepping for Processor 2.
present on a PCI add-in card installed in the slot In a 2U chassis, options for additional PCI slots PCI bus C will be displayed Disabled USB Function Submenu Table 13: USB Function Submenu Features Feature Choices Description USB Function Enabled Disabled Enables the embedded USB controller. Onboard NIC 1 and 2 Submenu Table 14: Onboard NIC 1 and 2 Submenu Features Feature Choices Description Onboard NIC Enabled Disabled If enabled, the system uses the embedded NIC.
Peripheral Configuration Submenu Table 18: Peripheral Configuration Submenu Features Feature Choices Description Serial Port 1 Address Disabled 3F8 2F8 3E8 2E8 Used to configure the serial port address. If console redirection is used, verify that the I/O and IRQ are identical to values configured in the “Server Setup” menu. Serial Port 2 Address 4 3 Used to configure the interrupt for serial port 1. Serial Port 1 IRQ Disabled 3F8 2F8 3E8 2E8 Used to configure the serial port address.
Wake on LAN Disabled Enabled Legacy wake only: Determines the action of the system when a LAN wake up event occurs. Wake on PME Disabled Enabled Legacy wake only: Determines the action of the system when a PCI Power Management Enable wake up event occurs. Wake on RTC Alarm Disabled Enabled Legacy wake only: Determines the action of the system when a RTC Alarm Wake up event occurs. Security Menu You can make the following selections on the Security Menu itself.
Server Menu Table 22: Server Menu Features Feature System Management Console Redirection Event Log Redirection Service Boot Choices Press Press Press Enable Disable Disabled Enabled Disabled Enabled Disable BSP Do not Disable BSP Retry 3 Times Disabled IRQ 5 IRQ 11 Stays Off Last State Power On Disabled Enabled Description Enters Submenu. Enters Submenu. Enters Submenu If enabled, server boots directly to System Management. If enabled, PCI bus parity error (PERR) routes to NMI.
COM2 2F8 IRQ3 management features. Make sure these values are identical to those of Serial Port A and B in the Peripheral Configuration Setup menu. Baud Rate 9600 19.2k 38.4k 115.2k Console Redirection, when enabled, uses the baud rate specified. When the Direct Platform Control (DPC) shares the COM port as console redirection, set the baud rate to 19.2k to match DPC baud rate, unless the autobaud feature is used.
Table 27: Boot Device Priority Submenu Features Boot Priority st 1 Boot Device nd 2 Boot Device 3rd Boot Device th 4 Boot Device Device Description Removable Attempts to boot from a removable media device. Hard Drive Attempts to boot from a hard drive device. Devices ATAPI CDROM Drive Attempts to boot from an ATAPI CD-ROM drive. Intel Boot Agent version 4 Attempts to boot from a network when a network device controlled by a PXE compliant ROM is present in the system.
Exit Menu You can make the following selections on the Exit Menu. Select an option using the up or down arrow keys. Press to run the option. Pressing does not exit this menu. You must select one of the items from the menu or menu bar to exit. Table 31: Exit Menu Features Feature Exit Saving Changes Exit Discarding Changes Load BIOS Setup Defaults Load Custom Defaults Save Custom Defaults Discard Changes Choices Description Exits and saves changes to CMOS.
When to Run the Adaptec SCSISelect Utility Use the SCSISelect utility to: • Change default values • Check and/or change SCSI device settings that may conflict with those of other devices in the server • Do a low-level format on SCSI devices installed in the server Running the SCSISelect Utility 1. When this message appears on the video monitor: << for SCSISelect(TM) Utility>>> 2. Press to run the utility.
SCSI Disk Utilities Press to view the SCSI Disk Utilities Menu. This menu allows you to format hard disks and/or verify disk media. When you are finished, press and make your selection from the following menu: Table 34: Exit Menu Feature Option Comment Exit Utility? Yes No When you finish configuring your SCSI devices, press . Then select Yes and press . When this message appears: Please press any key to reboot Press any key, and the server reboots.
DPC console runs on a client workstation. It communicates with a server by: • Accessing the server management capabilities of the on-board NIC • A Windows 2000 compatible modem. • An RS-232 connection to the server COM2 port. DPC Console is independent of the server operating system. Even when the server is off, you can use DPC Console to verify the state of a server or diagnose a problem with the server hardware.
Console go directly to the server, and the DPC Console displays the text that you would normally see on the server console. To use this mode, you must configure the Console Redirection option of BIOS Setup for Re-direct mode. Enabling Console Redirection requires that the Boot Time Diagnostics Screen be Enabled in BIOS Setup.
What You Need to Do You can run the SSU directly from the SCB2 Server Software Kit CD-ROM by booting the server system to the CD and selecting “Utilities” or from a set of DOS diskettes. If you choose to run the SSU from a set of DOS diskettes, you must create the SSU diskettes from the SCB2 Resource CD-ROM by booting to the CD-ROM and selecting “Create Diskettes.
a. After creating set of three SSU diskettes from the CD: Insert the first SSU diskette in drive A, and press the reset button or to reboot your server from the diskette. b. Directly from the SCB2 Server Software Kit CD-ROM: Insert the CD into your CD-ROM drive and press the reset button or to reboot. When prompted to do so, press to enter BIOS Setup. From the Boot Menu, select the Boot Device Priority option and then select CD-ROM as your primary boot device.
• Colour - this button lets you change the default colors associated with different items on the screen with predefined color combinations. The color changes are instantaneous. • Mode - this button lets you set the desired expertise level. novice intermediate expert The expertise level determines which tasks are visible in the Available Tasks section and what actions each task performs. For a new mode setting to take effect, you must exit the SSU and restart it.
OR • Highlight the task name, and click on OK. OR • Use the tab and arrow keys to highlight the desired button, and press the spacebar or . MultiBoot Options Add-in The Multi-boot Add-in (MBA) provides an interface for selecting Initial Program Load (IPL) devices. Using the MBA, the user can identify all IPL devices in the system and prioritise their boot order. On power-up, the BIOS will sequentially attempt to boot from each device.
Admin Password Button The ‘Admin Password’ button allows the user to set or change the administrative password used by both the SSU and the system BIOS. Note that this option is not available if both an administrative and a user password are set on the on the system and only the user password has been provided upon starting the SSU. All changes to the admin password take place immediately. To Change or Clear the Administrator Password 1. Click on the Administrator password button. 2.
• Lockout Timer—Set an interval that, if no activity takes place, it will drop the server into secure mode. • Secure Boot Mode—Force the server to boot directly into secure mode. • Video Blanking—Turn off the video when the server is in secure mode. • Floppy Write—Control access to the diskette drive while the server is in secure mode. • Reset/Power Switch Locking—Control the power and reset buttons while the server is in secure mode.
SEL The SEL menu has the following options: • Properties: Displays information about the SEL. These fields are display only. • Clear SEL: Clears the SEL data from the BMC. • All Events: Displays the current SEL data from the BMC. • Reload: Allows the user to re-load the SEL entries from the server. Help The Help menu has the following option: Help Topics: Displays the SEL Manager Version information.
View The View menu has the following options: • FRU Info: Displays information about the FRU. These fields are display only. • All FRU Areas: Displays the current FRU data from the BMC. • By Device Type: Brings up a popup menu that allows you to view only the data from a certain device type. Settings The Settings menu has the following options: • Display HEX/Verbose: Toggles between the Hex/interpreted mode of displaying the FRU records.
SDR Manager Add-in The Sensor Data Record (SDR) Manager Add-in component allows users to view sensor data records stored in the server management storage device of a server. The add-in allows users to perform the following operations: 1. Examine all SDR’s through the BMC. 2. Examine SDR’s from a previously stored file. 3. Save all SDR’s to a file. File The File menu has the following options: • Open: View data from a previously saved SDR file. • Save As: Saves the currently loaded SDR data to a file.
• Verify firmware code currently loaded versus an external hex file. • Update the BIOS from .bio or .uif files. The System Update Add-in has the following menus: File The File menu has the following options: • Load: Select the file to use in the update. • Exit: Quits the System Update Add-in. Area The Area menu has the following options: • Update: Use the loaded file to update the system. selected, the system will prompt you for one.
• PCI records in non-volatile storage • Non-volatile emergency management port (EMP), platform event paging (PEP), and Platform event filtering (PEF) settings Buttons • Save To File: Displays a file dialog so you can choose a filename and location. The CSR then tries to save any non-volatile configuration information it can to that file. Data is saved from all sources. There is no way to choose only certain pieces of configuration data to save.
Recovery Agent If the BMC firmware remote update fails, the server will reboot into the service partition and the recovery agent will attempt to finish the update. The recovery agent is an executable file (recover.exe) that exists on the service partition. Configuration Save/Restore Add-In Clicking on the Configuration Save/Restore Add-in (CSR) allows you to save configuration information from various sources to a file.
Platform Event Manager Add-in The Platform Event Manager (PEM) provides an interface for configuring Platform Event Paging (PEP), the Emergency Management Port (EMP), BMC LAN Configuration (LAN) and Platform Event Filtering (PEF). Platform Event Manager Window The PEM presents a main window to the user and supports several features (see Figure 43). These features appear in additional detail in the following sections. Note that each option included on the main window supports an accelerator key.
Platform Event Paging Dialog This dialog allows you to configure the Platform Event Paging features. (See Figure 44) Figure 44: Platform Event Paging Dialog File The File menu has the following options: • Save: Allows you to save the configuration immediately. • Close: Allows you to close the Platform Event Paging dialog without saving changes. If changes have been made, you will be prompted to save changes before closing.
Help Topics The Help Topics menu has the following options: • Help Topics: Displays help information. Enable PEP Checkbox Enable or disable the PEP feature entirely. Blackout Period in Minutes Enter the time, in minutes, between successive pages. The valid range is [0 – 255] where 0 disables the blackout period. Paging String Enter the paging string that contains both the paging service number and the characters that are sent once the connection has been made.
Figure 45: BMC LAN-Configuration Dialog File The File menu has the following options: • Save: Allows you to save the configuration immediately. • Close: Allows you to close the BMC LAN-Configuration dialog without saving changes. If changes have been made, you will be prompted to save changes before closing. Options Menu The Options menu has the following options: 88 • Enable LAN Alerts: Allows you to enable or disable the BMC LAN-Alerting features entirely.
Help Topics Menu The Help Topics menu has the following options: • Help Topics: Displays help information. Enable LAN Alerts Checkbox Enables or disables BMC LAN-Alerting. Enter New Password Allows you to enter a LAN password. The valid range of characters includes ASCII values 32-126. The password must be from 1-16 characters long. Verify New Password Enter the same password as above. LAN Access Mode Allows you to set the remote access mode desired.
Gateway IP Address Enter the Logical or Internet Address of the router. The Gateway IP Address will only be saved when DHCP is disabled. The IP is entered as a dotted IP, (e.g., 192.168.0.2). Subnet Mask Enter the logical or Internet address of the host’s subnet. The server uses this to decide if the alert destination is in the local subnet or in another subnet relative to the server. The Subnet Mask will only be saved when DHCP is disabled. The IP is entered as a dotted IP, e.g., 192.168.0.
Figure 46 : Platform Event Action Dialog File Menu The File menu has the following options: • Save: Allows you to save the configuration immediately. • Close: Allows you to close the Platform Event Action dialog without saving changes. If you have made changes, you will be prompted to save changes before closing. Help Topics Menu The Help Topics menu has the following options: • Help Topics: Displays help information. Enabled Listbox Contains the active events.
Buttons • >>: Moves all the events from the enabled listbox to the disabled listbox. • >: Moves the selected event from the enabled listbox to the disabled listbox. • <: Moves the selected event from the disabled listbox to enabled the listbox. • <<: Moves all the events from the disabled listbox to the enabled listbox. • Save: Allows you to save the configuration immediately. • Close: Allows you to close the Platform Event Action dialog without saving changes.
• Save: Allows you to save the configuration immediately. • Close: Allows you to close the Emergency Management Port dialog without saving changes. If you have made changes, you will be prompted to save changes before closing. Options The Options menu has the following options: • Clear EMP Password: Allows you to clear the currently saved EMP password. This takes effect immediately. This option is only available if the EMP password is set.
Modem Init String The Modem Init String string is transmitted every time the EMP initialises. The length of the paging string is determined at run-time from firmware. You will be notified if the string is truncated. The string that has been saved is the one that will be shown in the edit box. System Phone Number Enter the system telephone number. This can be retrieved and reported via in-band management connections.
Platform Event Paging With Platform Event Paging (PEP), your server can automatically dial up a paging service and page you when a server management related event occurs. Platform events include temperature out-of-range, voltage out-of-range, chassis intrusion, and fan failure. If PEP is enabled and the BMC receives or detects a new event, it automatically sends a page. It can send a page if the processors are down or if the system software is unavailable.
Software Updates Your system comes with preinstalled system BIOS and BMC firmware. When necessary, updates will be available for download from the Viglen support website. The updates are available in two forms: • A software update package (SUP) containing all three updates • Individual files, one for each update, that are manually executed With either form, bootable diskettes must be created. Creating a Bootable Diskette Each update diskette created must be made bootable with ROM-DOS Ver. 6.
2. Print, review, and follow the instruction.rtf file (it supercedes any other instructions) 3. Label three blank floppy disks as follows: • Disk 1 - SCB2 BIOS update diskette • Disk 2 – SCB2 BMC update diskette • Disk 3 – SCB2 FRU/SDR update diskette 4. Make the diskettes DOS bootable. 5. Record the current BIOS settings. a. Boot the computer and press when you see the splash screen. b. Write down the current settings in the BIOS Setup program.
3. Disk 3 – SCB2 FRU/SDR update—Prompts you to choose the chassis type. You can choose to update the chassis information; you will be prompted for the Serial Number, Part Number, and Asset Tag. Following the update process, the system will automatically reboot. Upon completion, it may be necessary to enter BIOS setup and reconfigure the setting values.
6. Insert the bootable diskette into drive A. 7. To extract the BIOS.EXE file to the diskette, change to the temporary directory that holds the BIOS.EXE file and type: BIOS A: 8. Press . 9. The diskette now holds the BIOS upgrade and recovery files. Upgrading the BIOS 1. Insert the diskette holding the BIOS upgrade and recovery files into drive A and boot the computer. 2. Press <1> and . 3.
5. Reinstall the access cover and connect the power cord. 6. Insert the diskette holding the BIOS upgrade and recovery files into drive A. 7. Turn on system power and listen to the speaker: • Two beeps indicate successful BIOS recovery—Go to the next step. • A series of continuous beeps indicates failed BIOS recovery—Return to Step 1 and repeat the recovery process. 8. Turn off system power and disconnect all AC power cords. 9. Remove the access cover. 10.
7. The program will load the file and then ask if it should upload boot code. Press “N” to continue unless otherwise directed by the release notes or an Intel support professional. 8. The program next asks if it should upload operational code. Press “Y” to continue. The process of uploading operational code takes a few minutes. 9. Once the operational code updates and verifies, press any key to continue. Then press to exit the program. 10. Shut the system down and remove any diskettes in the system.
• Is compatible with ROM-DOS Ver. 6.22, MS-DOS Ver. 6.22 (and later versions), Windows 95 DOS, and Windows 98 DOS • Accepts CFG, SDR, and FRU load files (the executable file for the utility is FRU/SDR.exe) • Requires the following supporting files: One or more .fru files describing the system’s field replaceable units A .cfg file describing the system configuration An .
specified CFG file and uses the entries in that file to probe the hardware and to select the proper SDRs to load into non-volatile storage. Displaying Utility Title and Version The utility displays its title: FRU & SDR Load Utility, Version Y.Y, Revision X.XX where Y.Y is the version number and X.XX is the revision number for the utility. Configuration File The configuration file is in ASCII text. The utility executes commands formed by the strings present in the configuration file.
7. Intel Server Control Legal Information from software supplier An Intel ® product, when used in accordance with its associated documentation, is "Year 2000 Capable" when, upon installation, it accurately stores, displays, processes, provides, and/or receives date data from, into, and between the twentieth and twenty-first centuries, including leap year calculations, provided that all other technology used in combination with said product properly exchanges date data with it.
About Intel Server Control NOTE: This section describes the Intel Server Control (ISC) server-management package. Introducing Intel Server Control Intel Server Control (ISC) is a package that provides tools to manage remote servers. The components of ISC are described in the following paragraphs.
be used to validate and isolate problems in the server. The tests are controlled via a text-based console redirected to the client workstation from DPC. See Direct Platform Control and Remote Diagnostics (Page 105) for summary information, and click the Help button in the DPC Console for detailed information. Client System Setup Utility: The Client System Setup Utility allows you to run the System Setup Utility for a managed server from a remote location. It communicates via a channel opened by DPC.
The next table shows the typical tasks that a system administrator might do. They include normal system administration, setting up system alerts so that an administrator is notified when something on the server needs attention, and acting in response to alerts or errors.
of the software on the same server. It is also possible to install Platform Instrumentation on multiple servers and Console software on multiple clients. PIC integrates into the enterprise and workgroup management consoles, as well as into the Intel Server Control Console. PIC relies on the management console to discover servers over the LAN. It also forwards changes in the server state to the management consoles for appropriate alert handling.
• Manage non-Intel-based systems via the Intelligent Chassis Management Bus (ICMB). • Remotely monitor server hardware sensors. • Configure sensor thresholds. • Update the server’s LCD display (if available). • Configure, receive, and act upon alert events in the system event log (SEL). • Configure audio or visual notifications in response to an event. • Configure options to shut down, reboot, or power-off the system automatically in response to an event.
Since DPC does not communicate with the server-resident operating system, it can be used to manage the server even if the server's operating system and primary processors are not working. Because the server's emergency management hardware works on 5V standby power, DPC can be used to communicate with and control a powered down server. DPC integrates into a variety of management consoles, as well as the ISC Console. DPC relies on the management console or ISC Console to discover servers over the LAN.
• Configuration registers The Client SSU stores configuration values in flash memory. These values take effect when you boot the server. Start a Client SSU session, by requesting a service boot through the Emergency Management Port. As the service environment boots, a network stack and agent are started and communication switches to the required protocol. The Client SSU integrates into the ISC Console and enterprise management consoles.
The DMI Explorer can be installed as a tool available from the ISC Console. Select “Install DMI Explorer” when you are installing the ISC software. Management Consoles Server management tools such as Platform Instrumentation Control, Direct Platform Control, and the Client System Setup Utility run as components within a server management console.
OpenView The HP OpenView Network Node Manager Console automatically detects servers running the ISC Platform Instrumentation software. ISC-enabled servers display on the network map, and an “Intel Server Control” applet is added as an option in the Tools menu. Unicenter TNG Unicenter TNG automatically detects servers running the ISC Platform Instrumentation software if the ISC to discovery service is enabled.
Using the modem connection via the Direct Platform Control (DPC), you can: • Reset the remote server’s power. • Reboot the remote server using the service partition. NOTE: Direct Platform Control is an optional application that may not be installed on this system. Look for the DPC icon in the right-hand pane of the ISC Console. To install DPC, rerun the installation program on the ISC CD-ROM.
Setting Up an ICMB Connection An ICMB connection requires: • A managed server with an ICMB interface. • A server with an ICMB interface, connected to the server management console. See the Product Guide for the managed server for information about setting up an ICMB connection.
further analyse the condition of the server. Pages can be configured for the following events: • Temperature Sensor out of range. • Voltage Sensor out of range. • Chassis Intrusion [Security Violation]. • Power Supply Fault. • BIOS: Uncorrectable ECC error. • BIOS: POST Error Code. • FRB Failures. • Fatal NMI (NMI from source other than Front Panel NMI or Uncorrectable ECC Error). • Watchdog Timer reset, power down, or power cycle. • System restart (reboot). • Fan failures.
Intel Server Control Console Main Screen The following figure shows the Intel Server Control Console. Figure 48: Intel Server Control Main Screen A. Button bar B. Navigation Pane C. Tool Pane D. Status Bar ISC Console Button Bar The ISC Console uses a Windows Explorer-like model, with a navigation pane (tree view) and a presentation pane (list view). Servers that are discovered are added to the tree view.
Server Menu Options Discover You can discover multiple servers in a single step and add them to the server tree. Servers are discovered using a Ping Sweep mechanism supported on servers running TCP/IP. To discover a range of servers with IP addresses, do the following steps: 1. On the Button Bar, click the Server->Discover menu selection. 2. Enter the starting address and ending address to be discovered. The starting address will default to the network subnet of the console machine starting at address 0.
4. Click OK. The ISC Console will test the specified server for all ISC-registered tools. If one or more of the tools is found, then the server will be added to the server tree. Delete/Delete All You can manually delete a server from the ISC Console server tree. To delete a server, do the following steps: 1. Select a server or multiple servers from the Windows NT Servers, NetWare Servers, UnixWare Servers, or Servers of Unknown Type branch in the server tree. 2.
The Status Bar The status bar displays information about ISC Console operations, such as the number of servers found with valid addresses and number of servers not responding during a Discover.
8. Solving Problems The first part of this chapter helps you identify and solve problems that might occur when the system is in use. The second part lists error code messages that might be displayed. Viglen Technical Support can be reached in the following ways: Telephone: 020 8758 7050 Fax: 020 8758 7080 Email: technical@viglen.co.uk You can also look for support information on our web site: http://www.viglen.co.uk Device drivers and various useful utilities can be downloaded from our ftp site: ftp://ftp.
Are all DIMMs installed correctly? Are all peripheral devices installed correctly? If the system has a hard disk drive, is it properly formatted or configured? Are all device drivers properly installed? Are the configuration settings made in BIOS Setup correct? Is the operating system properly loaded? Refer to the operating system documentation.
If you are running the software from a CD-ROM disk, try a different disk to see if the problem occurs on all disks. If you are running the software from a hard disk drive, try running it from a diskette. If the software runs correctly, there may be a problem with the copy on the hard disk drive. Reinstall the software on the hard disk, and try running it again. Make sure all necessary files are installed.
5. Turn on the system. If the power LED does not light, see “Power Light Does Not Light” on page 125 6. If errors are encountered, power off the system and remove all add-in cards. Monitoring POST Verifying Proper Operation of Key System Lights As POST determines the system configuration, it tests for the presence of each mass storage device installed in the system. As each device is checked, its activity light should turn on briefly.
Try the solutions in the order given. If you cannot correct the problem, contact your service representative or authorised dealer for help. Power Light Does Not Light Check the following: Is the system operating normally? If so, the power LED is probably defective or the cable from the front panel to the server board is loose. Are there other problems with the system? If so, check the items listed under “System Cooling Fans Do Not Rotate Properly.
If the problem persists, the video monitor may be faulty or it may be the incorrect type. Contact your service representative or authorised dealer for help. System Cooling Fans Do Not Rotate Properly If the system cooling fans are not operating properly, system components could be damaged.
Are all relevant switches and jumpers on the drive set correctly? Is the drive properly configured? Is the onboard IDE controller enabled? Cannot Connect to a Server Make sure you are using the drivers that are shipped on the system Configuration Software CD for the onboard network controller. Make sure the driver is loaded and the protocols are bound. Make sure the network cable is securely attached to the connector at the system back panel.
Run the diagnostics. Problems with Application Software If you have problems with application software, do the following: Verify that the software is properly configured for the system. See the software installation and operation documentation for instructions on setting up and using the software. Try a different copy of the software to see if the problem is with the copy you are using. Make sure all cables are installed correctly. Verify that the server board jumpers are set correctly.
9. Technical Reference Server Board Jumpers Figure 49: Server Board Jumpers Table 40: Configuration Jumper Jumper Name BMC WP Pins What it does at system reset A CMOS CLR B PSWD CLR C RCVRY BOOT D BMC boot block is write protected (normal operation). If these pins are not jumpered, BMC boot block is erasable and programmable at next reset. If these pins are jumpered, the CMOS settings are cleared. These pins should not be jumpered for normal operation.
nibble is represented by a red LED and each bit in the lower nibble is represented by a green LED. If both bits are set in the upper and lower nibble then both red and green LEDs are lit, resulting in an amber colour. Likewise, if both bits are clear then the red and green LEDs are off. During the POST process, each light sequence represents a specific Port-80 POST code. If a system should hang during POST, the Diagnostic LEDs will present the last test executed before the hang.
Table 41 : POST Codes (Continued) Post Code Diagnostic LED Decoder G=Green, R=Red, A=Amber MSB Description LSB 19h G Off Off A 1Ah G Off G R 23h Off Off A G 24h Off G R Off 25h F2h F5h Off R R G R A R A R G R A 12h Off Off G R 12h 12h 27h F4h F6h 15h 15h 15h 26h Off Off Off R R Off Off Off Off Off Off G A A G G G G G G A R A Off Off Off A R R G R R A A A Off 28h G Off R Off 29h G Off R G 2Ah G Off A Off 2Bh G Off A G 2Dh G G R G 2Dh 30h 30h 2E
Table 41 : POST Codes (Continued) Post Code Diagnostic LED Decoder G=Green, R=Red, A=Amber 39h MSB G Off R LSB A 3Ah G Off A R 40h Off R Off Off 4Bh G R G G 57h 53h 54h Off Off Off A R A G A Off A A R 60h Off R R Off 65h Off A R G 7Fh G A A A 80h R Off Off Off 81h R Off Off G 82h R Off G Off 83h R Off G G 84h R G Off Off 84h 84h 16h 17h 85h R R Off Off R G G G G G Off Off G G Off Off Off R A G 86h R G G Off 8Dh 8Dh 8Dh 95h 92h A A
Table 41 : POST Codes (Continued) Post Code Description Diagnostic LED Decoder G=Green, R=Red, A=Amber MSB LSB 9Bh A Off G A 9Eh A G G R A2h R Off A Off 86h R G G Off 8Bh 8Ch A5h A7h A7h A7h A7h A7h AAh 000h 000h A A R R R R R R A Off Off Off G G G G G G G Off Off Off G Off R A A A A A A Off Off G Off G G G G G G Off Off Off Float Processor Initialise: Performing any required initialisation before the coprocessor test next.
10.
• AS/NZS 3548 (Class A) – Radiated & Conducted Emissions (Australia / New Zealand) • RRL (Class A) Radiated & Conducted Emissions (Korea) • BSMI (Class A) Radiated & Conducted Emissions (Taiwan) For questions related to the EMC performance of this product, contact: Viglen Technical Support Tel: 020 8758 7000 Product Regulatory Compliance Markings This product is provided with the following Product Certification Markings.
BSMI (Taiwan) The BSMI Certification number 3902I904 is silk screened on the component side of the server board; and the following BSMI EMC warning is located on solder side of the server board. 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.
11. Equipment Log & Power Consumption Equipment Log Use the blank equipment log provided here to record information about your system. You will need some of this information when you run the SSU.
Table 42: Equipment Log (continued) Item 138 Manufacturer Name and Model Number Serial Number Viglen SX220 User Guide Date Installed
Current Usage NOTE: Both processors pull power from +5V. This may limit the number of drives and/or add-in cards you may install. As an overall current usage limitation on the power supply, do not exceed a combined power output of 195 watts for the +5 and +3.3 volt outputs. The PCI slots on the server board are rated at a maximum of 5 amperes per slot. The maximum power allowed for each slot is 20 watts at +5 volts. The average current usage per slot should not exceed 3.
Worksheet, Calculating DC Power Usage 1. List the current for each board and device in the appropriate voltage level column. 2. Add the currents in each column. Then go to the next worksheet. Table 43: Power Usage Worksheet 1 Current (maximum) at voltage level: Device +3.3 V Server board 3.0 A +5 V 5 V Standby 3.0 A .
Worksheet, Total Combined Power Used by the System 1. From the previous worksheet, enter the total current for each column. 2. Multiply the voltage by the total current to get the total wattage for each voltage level. 3. Add the total wattage for each voltage level to arrive at a total combined power usage on the power supply. Table 44: Power Usage Worksheet 2 Voltage level and total current (V X A = W) Total Watts for each voltage level (+3.
12. Appendix Contacting Viglen Viglen Technical Support Tel: 020 8758 7050 Fax: 020 8758 7097 E-mail: technical@viglen.co.uk Viglen's Internet Website http://www.viglen.co.uk The Viglen BBS service 020 8758 7095 Viglen Service Centre Tel: 020 8991 3582 Fax: 020 8758 7085, E-mail: service@viglen.co.uk Account Sales: Call the department appropriate to your business sector. Education: Tel: 020 8758 7170 Fax: 020 8566 7105 E-mail: education@viglen.co.
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14. Viglen, EMC and the ‘CE’ mark CE Marking As we begin the 21st century, European standards are being harmonised across borders. If products comply to the same standards in all European countries, product exporting and importing is made simple - paving our way to a common market. If you buy a product with a 'CE' mark on it (shown below), on the box, in the manual, or on the guarantee - it complies with the currently enforced directive(s).
15. Copyrights and Trademarks Please note The material in this manual is subject to change without notice. Trademarks Microsoft, Windows, Windows NT, Windows 95, MS-DOS and OS/2 are registered trademarks of Microsoft Corporation. i386, i486, Pentium, Pentium Pro and MMX are registered trademarks of Intel Corporation. JAC-UP, Contender, Dossier, Vig, Viglen, and Envy are trademarks of Viglen Limited. Genie and Contender are registered trademarks of Viglen Limited.
16. Suggestions Viglen is interested in continuing to improve the quality and information provided in their manuals. Viglen has listed some questions that you may like to answer and return to Viglen. This will help Viglen help to keep and improve the standard of their manuals. 1. Is the information provided in this and other manuals clear enough? 2. What could be added to the manual to improve it? 3. Does the manual go into enough detail? 4.
5. How do you rate the Viglen Technical support and Service Departments? 6. Are there any technological improvements that could be made to the system? 7. Other points you would like to mention? Please return this slip to: Product Development. Viglen Ltd.
