Viglen IX2000 Chassis User Guide ® Great M inds Think C O M P U T E R S . N E T W O R K S .
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Contents 1. Chassis Overview 5 2. Chassis Features 6 Chassis Front Controls and Indicators 6 Chassis Front, Rear and Side Views 7 Chassis Backplane Options 9 Serial Attached SCSI Backplane Overview 10 Serial ATA Backplane Overview 13 Ultra320 SCSI Backplane Overview 15 3.
Add-on Card Guide and Retainer 31 Detaching the Add-on Card Retainer 31 Releasing the Add-on Card Retainer 32 4. Rail Kit Assembly Guide 33 Rail Kit Features 33 Rail Kit Installation 37 5. Chassis Power Supply Technical Data 45 6.
1. Chassis Overview The Viglen IX2000 chassis is a server case that is designed for Enterprise server use. The IX2000 chassis is designed to be either pedestal or rackmount. If the IX2000 server chassis is configured to be rackmount then you have to purchase an adapter conversion kit. The chassis is equipped with power supplies that meet the latest ATX specifications.
2. Chassis Features Chassis Front Controls and indicators Table 2: Chassis Front Controls and Indicators Item Feature Description 1 1 x 3.5” Bay Houses the Floppy Disk Drive 2 3 x 5.25” bays Houses the CDROM and additional 5.25” devices e.g. Tape Devices. 3 Power Button Powers the server on. 4 Reset Button Hard reset of the server. 5 Failure Alarm Mute Mutes the redundant PCU alarm. (Disabled in single PSU systems) 6 USB Cover Covers the two USB ports.
Chassis Front, Rear and Side Views Chassis Front View (without front panel installed) Figure 3: Chassis Front View without the Front Panel Chassis Rear View Figure 4: Chassis Rear View Viglen IX2000 Chassis User Guide 7
Chassis Side View (without side panel installed) Figure 5: Chassis Side View (Without Side Panel Installed) Viglen IX2000 Chassis User Guide 8
Chassis Backplane Options The VIG840 chassis allows you to fully customise the backplane options to suit your needs. The chassis offers non hotswap cages, hotswap SAS cages, S-ATA cages and SCSI cages.
SAS/SATA-2 Backplane Overview Back View: Figure 6: SAS/SATA-2 Connector(s) Layout Table 4: SAS/SATA-2 Connector(s) Layout No Description 1 CN2, 4-pin DC Power Connector 2 CN1, 4-pin DC Power Connector 3 SW1, Front Panel Control Jumper 4 JF2, 3P3C Fan Connector Viglen IX2000 Chassis User Guide 10
5 6 7 8 9 10 11 12 CN33, 7P Serial ATA Connector CN43, 7P Serial ATA Connector JF1, 3P3C Fan Connector CN13, 7P Serial ATA Connector CN23, 7P Serial ATA Connector CN5, Hardware Monitor Switch CN3, External HDD Activity LED connector CN4, HDD Fail LED connector Front View: Figure 7: SAS Hard Drive Connector Layout Table 5: SAS/SATA-2 Hard Drive Connector Layout No Description 1 CN41, SAS HDD4 connector 2 CN31, SAS HDD3 connector 3 CN21, SAS HDD2 connector 4 CN11, SAS HDD1 connector Viglen IX2000 Chassis
Jumper Settings on the SAS/SATA-2 Backplane: SW1, Hardware Monitor Switch Table 6: S1 Hardware Monitor Switch Configuration No Function ON OFF 1 FAN1 Monitor Enabled *Disabled 2 FAN2 Monitor Enabled *Disabled 3 Alarm Temperature *65°C 55°C * Default Settings CN5, Front Panel Control Jumper Table 7: CN5 Front Panel Control Jumper Pin No. Function Pin No. 1 System Failure LED+ 2 3 System Failure LED4 5 Key Pin 6 Function N.A.
Serial ATA Backplane Overview Back View: Figure 6: S-ATA Connector(s) Layout Table 9: S-ATA Connector(s) Layout No Description 1 J9, 4-pin DC Power Connector 2 J10, 4-pin DC Power Connector 3 FAN1, 3P3C Fan Connector 4 FAN2, 3P3C Fan Connector 5 J5, 7P Serial ATA Connector 6 J7, 7P Serial ATA Connector 7 J6, 7P Serial ATA Connector 8 J8, 7P Serial ATA Connector 9 S1, Hardware Monitor Switch 10 JP1, Front Panel Control Jumper Viglen IX2000 Chassis User Guide 13
Front View: Figure 7: S-ATA Hard Drive Connector Layout Table 10: S-ATA Hard Drive Connector Layout No Description 1 J1, serial ATA HDD1 connector 2 J2, serial ATA HDD2 connector 3 J3, serial ATA HDD3 connector 4 J4, serial ATA HDD4 connector Jumper Settings on the SATA Backplane: S1, Hardware Monitor Switch Table 11: S1 Hardware Monitor Switch Configuration No Function ON OFF 1 FAN1 Monitor *Disabled Enabled Viglen IX2000 Chassis User Guide 14
2 FAN2 Monitor 3 Alarm Temperature * Default Settings *Disabled 50°C Enabled *60°C JP1, Front Panel Control Jumper Table 12: JP1 Front Panel Control Jumper Pin No. Function Pin No.
Figure 8: Ultra320 SCSI Connector(s) Layout Table 13: Ultra320 SCSI Connector(s) Layout No Description No Description 1 JPWR1,4-pin DC Power 8 TEMP_SET, Alarm Temperature 2 JPWR2,4-pin DC Power 9 J3, Front Panel Control 3 FAN1, 3P3C Connector 10 Terminator connector 4 FAN2, 3P3C Connector 11 SW1, HDD1 ID Switch 5 68-pin SCSI Connector 12 SW2, HDD2 ID Switch 6 FAN_DIS, FAN Monitor 13 SW3, HDD3 ID Switch 7 J2, HDD Motor Control 14 SW4, HDD4 ID Switch Front View: Figure 9: Ultra320 SCSI Hard Drive Connector
Jumper Settings on the Ultra320 SCSI Backplane: SCSI ID Switch (SW1, SW2, SW3, SW4) Table 15: SCSI ID Switch Options SCSI ID P1 P2 P3 OFF OFF OFF 0 ON OFF OFF 1 OFF ON OFF 2 ON ON OFF 3 OFF OFF ON 4 ON OFF ON 5 OFF ON ON 6 ON ON ON 7 P4 OFF OFF OFF OFF OFF OFF OFF OFF SCSI ID 8 9 10 11 12 13 14 15 P1 OFF ON OFF ON OFF ON OFF ON P2 OFF OFF ON ON OFF OFF ON ON P3 OFF OFF OFF OFF ON ON ON ON P4 ON ON ON ON ON ON ON ON Hard Disk Drive Motor Control (J2) Table 16: Hard Disk Drive Motor Control Options O
Table 17: Alarm Temperature Options Temperature P1 – P2 P3 – P4 Short Open 45°C Open Short *55°C Open Open 65°C * Default Settings P5 – P6 Open Open Short Fan Monitor Function (FAN_DIS) Table 18: Fan Monitor Function Monitor Mode FAN1 P1 – P2 Short *Disabled Open Enabled * Default Settings FAN2 P3 – P4 Short Open Front Panel Control (J3) Table 19: Front Panel Control Pin No Description Pin No Alarm LED+ 1 2 N/A 3 4 Mute Switch 5 6 Description Alarm LEDN/A Mute Switch Viglen IX2000 Chassis User Guide
3. Chassis Installation and Assembly Tools and Supplies Needed • Phillips (cross-head) screwdriver (#2 bit) • Antistatic wrist strap (recommended) Safety Warning! Before You Remove the Side Cover Before removing the system side covers to work inside the system, observe these safety guidelines. 1. Turn off all peripheral devices connected to the system. 2. Turn off the system by using the push-button on/off power switch on the front of the system.
Warning and Cautions! These warnings and cautions apply whenever you remove the side cover of the system to access components inside the system. Only a technically qualified person should integrate and configure the system. Warning! System power on/off: The on/off button (a convex button) on the front panel DOES NOT turn off the system AC power. To remove power from system, you must unplug the AC power cord from the wall outlet or the system.
Opening the Front Bezel Take off the front bezel from chassis body. A key lock secures the front bezel to protect your system against unauthorised access: 1. Insert the key into the security lock, and turn it clockwise until it points to the unlock icon as figure 10. 2. Press two release button on top of front bezel and the pull it toward you (Figure 11). 3. Take off the front bezel from chassis body.
Removing the Side Cover 1. Remove the front bezel. Refer to the previous section for detailed instructions. 2. Loosen the three thumb screws (1) of the side cover. Figure 12: Loosening the Thumb Screws 3. Slide the side cover towards you until it is stopped (2), then upwards before taking it off from the chassis body.
Installing Hard Disk Drives and Cages The VIG840 supports the following hard disk drive cages: Figure 14: Hotswap & Non Hotswap Hard Disk Drive Cages Hotswap Drive Carrier The hard drive carrier is used in the Hotswap cage shown in Figure 14. Figure 15: Hotswap Drive Carrier Table 15: Hard Drive Carrier Features No Description 1 Contact Spring to chassis 2 HDD Power ON LED 3 HDD activity LED 4 Release button 5 Contact spring to upper 6 Lever 7 Air dam – must be installed if a hard drive is not present.
Installing a Hard Drive Carrier to the Hotswap Cage 1. Remove the air duct first. 2. Install a hard drive into the carrier, and then secure it with the four screws you can find in the screw bags supplier with each carrier. 3. Insert the hard disk carrier into the Hotswap cage with lever still extended (See Figure 16). Figure 16: Inserting a Hard Drive Carrier 4. Push the lever back until it clicks into place (See Figure 17).
Installing Hard Drives to the Non Hotswap Cage 1. Find the special mounting screws supplied with the server (See Figure 18). Figure 18: Special Mounting Screws 2. Put the hard drives into the cage and align with the mounting holes (See Figure 19). 3. Secure the hard drives to the drive cage using the screws shown in Figure 18. Figure 19: Mounting Holes on the Drive Cage Removing the Hotswap or Non Hotswap Cage 1. Loosen the four thumbscrews, which secure the hard disk drive cage to the chassis body. 2.
3. Disconnect the SCSI, Serial ATA, or power cables. If necessary the SCSI terminator also needs to be removed. 4. Finally continue to pull out the cage until it is totally out of the drive bay. Figure 21: Completely Removing the Cage from the Chassis Installing the 120mm Fan The VIG840 is designed to support three 120mm cooling fans with screw-less fan holders. There are two fans located in the middle of the chassis and one fan is mounted on the rear panel.
2. Next press the 120mm fan towards the fan holder until it clicks into place. You will find that the four positioning pins will insert into the four mounting holes of the 120mm fan around the frame. 3. Finally check that all four hooks of the fan holder have exactly fastened to the fan (See Figure 23). Figure 23: Checking the Fan Holder Hooks Installing a 120mm Fan to the VIG840 Chassis 1. Install the 120mm fan to the fan holder (See Figure 24). Figure 24: 120mm Fan Holder 2.
Figure 25: Mounting the Fan to Chassis Installing the Floppy Drive The VIG840 has a 3½” bay to hold a floppy disk drive. To install a floppy drive follow the below instructions: 1. Loosen the two screws (1) located on the side panel of the floppy disk drive carrier. Figure 26: Loosening the Two Screws 2. Insert the hooks shown by arrows in Figure 27 into the mounting holes of the floppy drive.
Figure 27: Mounting Hooks 3. Push the floppy disk drive down into the carrier and then secure the drive in place with the two screws that were removed earlier. Figure 28: Securing the Floppy Drive to the Carrier 4. Insert the drive carrier with the floppy drive installed into the 3½” bay until you hear a click sound. Figure 29: Installing the Drive Carrier to the Chassis 5. The floppy drive has now been successfully installed.
Installing a 5¼” Device The VIG840 can hold up to three 5¼” devices. The below instructions uses a CD-ROM drive to illustrate how to install a 5¼” device to the VIG840 chassis. 1. Remove a pair of slide rails from the side panel of the drive cage frame. Figure 30: Slide Rails 2. Insert both guide pins (Circled in Figure 30) on the slide rail into the mounting holes of the CD-ROM drive and then secure them in place with screws side by side. Figure 31: Securing the Slide Rails to the 5¼” Device 3.
Figure 32: Installing the 5¼” Device to the Chassis 4. The floppy drive has now been successfully installed. Add-on Card Guide and Retainer Detaching the Add-on Card Retainer 1. For convenience of installation or cabling the user may want to remove the add-on card retainer. 2. Push the release button on the top of the add-on card holder and then pull it out. Figure 33: Release Button on top of the Add-on Card Holder 3. Move it upwards slightly and then detach it completely from the chassis body.
Releasing the Add-on Card Retainer 1. Press both release tabs, shown in Figure 34 using red arrows and rotate the retainer towards you. Figure 34: Releasing the Retainer 2. Finally the clamp will be held in the position shown in Figure 35. The user can now install full length PCI cards, which will be guided and secured by the holder. Once all cards have been installed close the retainer.
4. Rail Kit Assembly Guide Rail Kit Features This latch allows for the slide rails to move in both directions.
This Latch releases the outer rail so that the server can be pushed back into the rack cabinet (One direction).
Outer Rail Outer View (Rear location): This is the rear adjustable extension plate located on the outer rail. Figure 40: Rear Adjustable Extension Plate Outer Rail Inner View (Rear Location): The rear adjustable extension plate can be adjusted by loosening the screws located on the inner side of the outer rail.
Outer Rail Outer View (Front Location): This is the front adjustable extension plate. Use the following screws to adjust the length of the rail to fit rack cabinet. Figure 42: Front Adjustable Extension Plate Outer Rail Inner View (Front Location): On the inner side of the rail you have high quality ball bearings which will be used to join the outer rail to the inner rail which is attached to the server.
Rail Kit Installation Step 1: Attach inner rail to chassis.
Step 2: Preparing the outer rail (Front). Use the screws shown below to extend the outer rail so that it fits your rack cabinet.
Step 3: Preparing the outer rail (Rear). Loosen the screws below to free the rear plate so that the outer rail can be extended to fit the rack cabinet.
Step 4: Preparing the rack cabinet. Firstly insert moveable screw nuts into the square holes on the front and rear sides of the rack cabinet. Next screw the rails to the front of the rack cabinet from the inside as shown below.
Step 5: Secondly, attach the rear of the outer rail to the back of the rack cabinet from the outside as shown below.
Step 6: Finally, tighten the two screws on the outer rail of the extension plate so that the rail is secure in the rack cabinet.
Step 7: Upload the chassis to the rack cabinet by lining up the outer rails which are now installed in the rack cabinet to the inner rails installed on the sides of the server. Once the rails are lined up push the chassis into the rack cabinet until lock position is achieved.
Step 8: Once the rails lock they need to be released by the inner rail latch so that the server can be completely pushed into the rack cabinet. The arrow below illustrates what direction to move the latch to release the lock. Figure 51: Releasing the Inner Rail The Server is now mounted successfully into the rack cabinet.
5. Chassis Power Supply Technical Data Table 16: Power Supply Specification Input Voltage Range Frequency Range Max. input AC Current +3.3V (MAX Load) +5V (Max Load) +12V V1 (MAX Load) +12V V2 (MAX Load) +12V V3 (Max Load) +12V V4 (Max Load) -12V (MAX Load) -5V (MAX Load) +5Vsb (MAX Load) Caution 600W 90~140Vrms or 180~264Vrms 47Hz~63Hz 10A Max @ 110Vac/60Hz 5A Max @ 220Vac/50Hz 24A 24A 15A 15A 16A 12A 0.5A 2.0A +5V and 3.
6. Appendices Appendix A: Glossary A Ampere, This is a term of measurement for electric current. AC Alternating Current used to describe the mains voltage. Ampere This is a term of measurement of electric current. Analog Pertaining to data in the form of continuously variable quantities. Contrasts with Digital. ANSI American National Standards Institute. ASCII American Standard Coded for Information Interchange. This is a special 7/8 bit code that is given to identify characters.
Bit Synonym for Binary digit. A single unit of information which can hold a value of 0 or 1. Boot The name given to the program that runs on the computer when it is first switched on. Can also be a verb related to running the program. BSI British Standards Institute. Bps Bits per second. Buffer An area of temporary storage. Bus One or more conductors used for transmitting signals. Byte A unit of data made up of eight Bits. C / C++ A programming language.
Digital Pertaining to data in the form of binary digits. Contrasts with Analogue. DIN DIP Deutsche Industrie Norm, specifies major connector types. Dual In-Line Package. ICs that have two parallel rows of connections. DMA Direct Memory Access. A method of transferring data between main storage and I/O devices without processor intervention. Disk See Floppy Disk. DOS or MS-DOS® Disk Operating System or Microsoft Disk Operating System.
Hardware The physical equipment which makes up the computer system. Hertz (Hz) A unit of measurement of frequency amounting to one cycle per second. Hex Hexadecimal. Base-16 mathematics. IC Integrated Circuit. Icon A graphical symbol. IDE Integrated device interface. An AT bus specification for a fast hard disk. IEC International Electrotechnical Commission. Specifies standards of safety. I/O Input/Output. Refers to data being sent to or received from a computer.
Mb Abbreviation for Mega Bits, i.e. 1024K bits. Memory An electronic component which remembers data stored in it. MHz Mega Hertz. 1,000,000 Hertz. ns Nano Second 0.000 000 001 second. Pixel The smallest displayable unit on a monitor or picture tube. POST Power-On Self Test. RAM Random Access Memory. Fast Read/Write memory. RFI Radio Frequency Interface. ROM Read Only Memory. RS-232C A standard for asynchronous serial communication. SCSI Small Computer Systems Interface.
VAC Volts (Alternating Current). VDE Verband Deutscher Electrotechniker. German organisation specifying EMI suppression. Video Computer data or graphics displayed on a monitor or screen. W Watt. Watt Basic unit of measurement of electrical power. Word A number of bits or bytes making up an entity used in the transfer and calculation of data in the computer architecture. Word=16 bits (2 bytes), long word= 32bits (4 bytes).
Appendix B: Notes Viglen IX2000 Chassis User Guide 52
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Appendix C: 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? 1.
