MAXDATA Server PLATINUM 3200 I M6 User’s Manual
Contents
Contents 1 Setting up the System 7 Server Position ........................................................................................................................................7 Back Panel Features ................................................................................................................................8 Front Panel Controls and Indicators ........................................................................................................
7 Troubleshooting 39 BIOS POST Beep Codes .......................................................................................................................39 8 Technical Reference 41 Power Supply Specifications .................................................................................................................41 670-W Single Power Supply Input Voltages .....................................................................................41 670-W Single Power Supply Output Voltages ...
Figures 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. 16. 17. 18. 19. 20. 21. 22. 23. 24. 25. 26. 27. 28. Back Panel Connectors and LEDs .....................................................................................................8 Pedestal Controls and Indicators .......................................................................................................9 MAXDATA PLATINUM 3200 I Base Front View .............................................................................
1 Setting up the System Server Position Please take note of the following criteria for creating a practical and safe workplace when setting up your computer: The system can be used anywhere the temperature is suitable for people. However, rooms with humidity over 70 %, and dusty or dirty areas are not appropriate. In addition, do not expose the server to any temperatures over +30 °C or under +10 °C. Make sure that the cables connecting the server to peripheral devices are not tight.
Back Panel Features The diagram and table show the back panel connectors and LEDs. For information about LEDs, see “Light-Guided Diagnostics” on page 27. A B C D E F G H I J Figure 1. Back Panel Connectors and LEDs A. Mouse (top), Keyboard (bottom) F. Bit 3 LED (POST LED) B. Status LED G. LSB LED (POST LED) C. ID LED H. Serial A (top), Video (bottom) D. MSB LED (POST LED) I. NIC 1 (top), two USB (bottom) Bit 2 LED (POST LED) J. NIC 2 (top), two USB (bottom) E.
Front Panel Controls and Indicators Figure 2. Pedestal Controls and Indicators A. ID Toggle Switch F. Power/Sleep LED (green) B. Reset Button G. NIC 2 Activity LED (green) C. NIC 1 Activity LED (green) H. ID LED (blue) D. Power Button I. Status LED (bi-color) E. Hard Drive Activity LED (bi-color) J.
Descriptions of the front panel LEDs are listed in the following table. Table 2.
2 Chassis Description Feature Summary Table 3. Feature Summary Feature P3200 I Description Peripheral Bays 3 multi-mount 5.25 peripheral bays Drive Bays (6 + 4) bay layout One fixed drive bay for up to six drives (P3200 I base). Optional hot-swap drive bays (P3200 I redundant): • Six-drive SAS/SATA • Four-drive SAS/SATA • Supports up to 6 drives, with redundant 830-W power supply up to 10 drives. Expansion Slots Six full-length PCI expansion slots are available.
Chassis Front View A I H D B E J C K F G L Figure 3. MAXDATA PLATINUM 3200 I Base Front View 12 A. Fixed Power Supply B. Rear Serial B Connector C. PCI Add-in Card Panel D. Memory Air Duct E. Processor Air Duct F. Fixed Fans (2) G. Hard Disk Drive Cage Release Mechanisms (2) H. Front Panel Controls I. 5.25-inch Device Bays J. Front Panel USB/Serial B K. Fixed Drive Cage – 4 Drive (accessory) L.
Base Chassis Rear View Figure 4. MAXDATA PLATINUM 3200 I Base Chassis Rear View MAXDATA Server PLATINUM 3200 I M6 A. Power supply B. I/O Ports C. Expansion Slot Covers D. PCI Add-in Card Panel E. PCI Card Latch F. Rear Serial B Connector G. ICBM or SCSI Knockout H.
Base Redundant Power Chassis Rear View Figure 5. MAXDATA PLATINUM 3200 I Redundant Power Chassis Rear View A. Removable Power supply B. I/O Ports C. Expansion Slot Covers D. PCI Add-in Card Panel E. PCI Card Latch F. Rear Serial B Connector G. ICBM or SCSI Knockout H. AC Power Connector Peripherals 5.25-inch Halfheight Peripheral Bays NOTE One multipurpose 5.25-inch drive carrier is included with the chassis.
3 Setting up the Chassis This chapter describes how to set up your server chassis for the first time. Tools and Supplies Needed • Phillips (cross head) screwdriver (#2 bit) • Small flat-head screwdriver • Anti-static wrist strap (recommended) Safety: Before You Remove the Access Cover Before removing the access cover for any reason, observe these safety guidelines: • Turn off all peripheral devices connected to the server.
Remove Primary Access Cover When facing the front of the chassis, the Primary Access cover is on the left-hand side for pedestalmounted servers, and on top for rack-mounted servers. 1. Observe the safety and ESD precautions at the beginning of this chapter. 2. Power off the system and disconnect the power cable. 3. If the shipping screw is installed, remove it (letter “A”). 4. Press the latch (letter “B”) and slide the Primary Access Cover toward the rear of the chassis. 5.
Install 3.5-inch Floppy, DVD, or CD-ROM Drive 1. Press pair of slides inward (letter “A”) to release and pull slide/filler panel assembly out of device bay. Figure 8. Removing Slide/Filler Panel Assembly from Upper Device Bay 2. Attach the slides to the drive by pressing the slides firmly into the side dimples on the drive. Figure 9. Installing Slides on 3.5-inch Floppy Drive 3. Insert the drive/slide assembly partially into the upper device bay. Connect power and data cables. 4.
Install Fixed Hard Drive(s) 1. Push the blue plastic release mechanism upward to release the Fixed drive cage (letter “A”). Pull out the drive cage so that it is partially exposed (about 2 inches out) from the drive bay slot in the chassis (letter “B”). Partially exposing the drive cage will make it easier to open the upper door of the drive cage. Figure 11.
3. Open the lower door. 4. Remove a pair of device slides from the drive cage. Figure 13. Remove Slides from Drive Cage Door 5. Attach the device slides to the hard drive. This is a tool-less operation. Insert tabs on device slides into mounting holes on hard drive and then press firmly to secure device slides to hard drive. Ensure that the metal tabs on the device slides are facing the front of the hard drive and facing towards each other. Figure 14. Installing Device Slides to Hard Drive 6.
7. Repeat steps 4-5 for installation of additional hard drives into drive cage. 8. Close the lower door of drive cage. 9. Close the upper door of drive cage. 10. Tighten the thumb screw. Install power and data cables to connectors on hard drive(s). Install Hot Swap Drive(s) 1. Press in on the green latch (letter “A”) at the end of the drive carrier to disengage it from the hot swap drive cage. Pull out on the black lever (letter “B”) to fully open the drive carrier.
4. Secure the hard drive to the drive carrier using the four screws that were formerly attached to the plastic retention device. Ensure that the connector end of the hard drive is facing the back of the drive carrier. The label side of the hard drive should be facing up in the drive carrier. Figure 18. Securing Hard Drive to Drive Cage 5. With the black lever open, insert the drive carrier into the drive cage. Once inserted, rotate the black lever upwards to latch the drive carrier into position.
4 Server Board Features This chapter briefly describes the main features of the PLATINUM 3200 I Server Board. It provides a list of the server board features and diagrams showing the location of important components and connections on the server board. Table 4.
Cooling fan support • Two 4-pin processor fan connectors • Four 6-pin front hot-swap fan connectors • Two 4-pin rear fan connectors Server management support • Support for the Local Control Panel (optional component sold separately) • Support for Remote Management Module and RMM NIC (optional component sold separately) • Support for System Management software • Light-Guided Diagnostics on field replaceable units Connector and Header Locations A B C DE F G I H J K L NN MM M N O P LL KK JJ Q R II
A. PCI-X 64-bit, 100-MHz slot 1 O. Main power connector BB. USB header B. PCI-X 64-bit, 100-/133MHz slot 2 P. Auxiliary power signal connector CC. IDE connector C. PCI Express x4 slot 3 Q. DIMM sockets (see Figure 23 on page 29) DD. Enclosure management SATA SGPIO header D. RMM NIC connector R. Processor 1 socket EE. Local Control Panel header E. PCI Express x4 slot 4 S. Processor 2 socket FF. Hot-swap backplane B header F. PCI Express x8 slot 5 T.
Jumper Name Pins What Happens at System Reset BIOS Bank Select (J1C3) 1-2 Bank 0: Boot to an alternate BIOS. 2-3 Boot from the standard BIOS. These pins should be jumpered for normal operation. 1-2 BMC control: these pins should be jumpered for normal operation. 2-3 Erase CMOS: If these pins are jumpered for 5 to 10 seconds, the CMOS settings will be cleared on the next server reset. These pins should not be jumpered for normal operation.
Light-Guided Diagnostics The server board contains diagnostic LEDs to help you identify failed and failing components and to help you identify the server from among several servers. Except for the ID LED, the status LED, and the +5-volt standby LED, the LEDs turn on (amber) only if a failure occurs. A B I J K L M N O P C D E F G H Q R S T U Figure 22. Diagnostic LEDs Callout LED Function A. B. C. D. Bit 3 LED LSB LED Bit 2 LED MSB LED POST LEDs.
Callout LED Function H. System fan 5 fault LED This LED indicates a fault has occurred with system fan 5. See your server chassis documentation for instructions to replace the fan. I. J. K. L. M. N. O. P. DIMM A1 fault LED DIMM A2 fault LED DIMM B1 fault LED DIMM B2 fault LED DIMM C1 fault LED DIMM C2 fault LED DIMM D1 fault LED DIMM D2 fault LED These LEDs indicate a fault has occurred with the FBDIMM installed in the corresponding socket. Replace the faulty FBDIMM. Q.
See the following diagram to identify the DIMM sockets. D E C F B G A H Figure 23. DIMM Sockets Callout DIMM Socket Callout DIMM Socket A. Branch 1, Channel A, DIMM_A1 E. Branch 2, Channel C, DIMM_C1 B. Branch 1, Channel A, DIMM_A2 F. Branch 2, Channel C, DIMM_C2 C. Branch 1, Channel B, DIMM_B1 G. Branch 2, Channel D, DIMM_D1 D. Branch 1, Channel B, DIMM_B2 H. Branch 2, Channel D, DIMM_D2 A minimum of one 512 MB FBDIMM is required in DIMM socket DIMM_A1.
5 Hardware Installations and Upgrades Before You Begin Before working with your server product, pay close attention to the safety information in ‘Server Position’ at the beginning of this manual.
Installing or Replacing the Processor CAUTIONS Processor must be appropriate: You may damage the server board if you install a processor that is inappropriate for your server. ESD and handling processors: Reduce the risk of electrostatic discharge (ESD) damage to the processor by doing the following: (1) Touch the metal chassis before touching the processor or server board. Keep part of your body in contact with the metal chassis to dissipate the static charge while handling the processor.
10. If the protective cover is attached from the load plate, remove it and store it for future use. Figure 26. Removing Protective Cover from Load Plate 11. Remove the processor from the box and remove the protective shipping cover. 12. Set the processor in the socket with the processor cutouts matching the processor socket notches. See Figure 27. Figure 27. Setting Processor in Place 13. Close the load plate. 14. Close the socket lever.
Installing the Heatsink(s) 1. The heat sink has Thermal Interface Material (TIM) located on the bottom of it. Use caution when you unpack the heat sink so you do not damage the TIM. 2. Set the heat sink over the processor, lining up the four captive screws with the four posts surrounding the processor. 3. Loosely screw in the captive screws on the heat sink corners in a diagonal manner. Do not fully tighten one screw before tightening another. 4.
Replacing the Backup Battery The lithium battery on the server board powers the 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. WARNING Danger of explosion if battery is incorrectly replaced.
Figure 28. Replacing the Backup Battery 7. Dispose of the old battery according to local ordinance. 8. Remove the new lithium battery from its package, and observe the correct polarity. The printed side of the battery must face up, or toward the DIMM slots. 9. Insert the battery in the socket. 10. Close the chassis. 11. Run Setup to restore the configuration settings to the RTC.
6 Server Utilities Using the BIOS Setup Utility This section describes the BIOS Setup Utility options, which is used to change server configuration defaults. You can run BIOS Setup with or without an operating system present.
Table 5 describes the keyboard commands you can use in the BIOS Setup menus. Table 5. Keyboard Commands Press Description Help - Pressing F1 on any menu invokes the general Help window. ←→ The left and right arrow keys are used to move between the major menu pages. The keys have no affect if a sub menu or pick list is displayed. ↑ Select Item up - The up arrow is used to select the previous value in a menu item’s option list, or a value field pick list.
7 Troubleshooting BIOS POST Beep Codes The table below lists the POST error beep codes. Prior to system video initialization, the BIOS uses these beep codes to inform users of error conditions. Please note that not all error conditions are supported by BIOS beep codes. Table 6. POST Error Beep Codes Number of Beeps Reason for Beeps and Action to Take 1, 2, or 3 Memory error. Reseat the memory or replace the FBDIMMs with known good modules.
8 Technical Reference Power Supply Specifications 670-W Single Power Supply Input Voltages 670-W Power Supply • 100-127 V~ at 50/60 Hz; 12 A max. • 200-240 V~ at 50/60 Hz; 7 A max. 670-W Single Power Supply Output Voltages 670-W Power Supply The table below lists the total wattage available from the power subsystem for each voltage. If you configure your system heavily, ensure that your loads do not exceed the combined total wattage of 670 Watts. Table 7.
CAUTION Do not exceed a combined power output of 170 Watts for the +5 V and +3.3 V outputs. Exceeding a combined 170 Watts will overload the power subsystem and may cause the power supplies to overheat and malfunction. The expansion slots on the server board are rated for no more than 25 Watts for any one slot. The average current usage per slot should not exceed 13 Watts. System Environmental Specifications Table 9. Environmental Specifications Temperature Non-operating –40 °C to 70 °C.
9 Regulatory and Integration Information Product Regulatory Compliance Product Safety Compliance The server complies with the following safety requirements: • EN 60950 (European Union) • IEC 60950 (International) • CE – Low Voltage Directive (73/23/EEC) (European Union) Product EMC Compliance The server has been tested and verified to comply with the following electromagnetical compatibility (EMC) regulations: • EN 55022 (Class A) – Radiated & Conducted Emissions (European Union) • EN 55024 (Immuni
Installation Requirements CAUTION Follow these guidelines to meet safety and regulatory requirements when installing this board assembly. Read and adhere to all of these instructions and the instructions supplied with the chassis and associated modules. If the instructions for the chassis are inconsistent with these instructions or the instructions for associated modules, contact the supplier’s technical support to find out how you can ensure that your computer meets safety and regulatory requirements.
Rack Mount Warnings The equipment rack must be anchored to an unmovable support to prevent it from tipping when a server or piece of equipment is extended from it. The equipment rack must be installed according to the rack manufacturer‘s instructions. Install equipment in the rack from the bottom up, with the heaviest equipment at the bottom of the rack. Extend only one piece of equipment from the rack at a time. You are responsible for installing a main power disconnect for the entire rack unit.
