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I-Bus 0818D User Manual

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0818D
CompactPCI System
User's Guide
0818D User's Guide
Doc No. 1002830 Rev 3

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Summary of Contents for I-Bus 0818D

  • Page 1 0818D CompactPCI System User’s Guide 0818D User’s Guide Doc No. 1002830 Rev 3...
  • Page 2 Fax: +44 (0) 1243 756301 Email: contact.uk@ibus.com France, Italy I-Bus B.P 45 Valbonne 06901 Sophia Antipolis CEDEX France Tel: +33 (0) 493 004 360 Fax: +33 (0) 493 004 369 Email: contatct.fr@ibus.com Other countries, please contact support@ibus.com 0818D User’s Guide...
  • Page 3 0818D User’s Guide...

  • Page 4: Table Of Contents

    2.3.1 Temperature ................2-8 2.3.2 Humidity ................2-8 2.3.3 Altitude .................2-8 2.3.4 Vibration/Shock..............2-9 2.3.5 Safety Agency..............2-9 Chapter 3. Hardware 3.1 SBC Module ................3-2 3.1.1 Removal of the SBC Board Module........3-2 3.1.2 Installation of the SBC Board Module........3-2 3.2 Add-In Boards ................3-3 0818D User’s Guide...
  • Page 5 3.6.1 Removal of the Hot-Swap Fan Tray ........3-10 3.6.2 Installation of the Hot-Swap Fan Tray .......3-10 3.6.3 Removal of the Cooling Blowers........3-11 3.6.4 Installation of the Cooling Blowers........3-12 3.7 Chassis Filter ................3-13 3.7.1 Removing the Chassis Filter ..........3-13 3.7.2 Replacing the Chassis Filter ..........3-13 0818D User’s Guide...
  • Page 6 6.3.1 Physical Size...............6-3 6.3.2 User Access................6-3 6.3.3 Temperature Range............6-3 6.4 Sensors Supported ..............6-3 6.4.1 Temperature Sensors ............6-3 6.4.2 Voltage Sensors..............6-4 6.4.3 Fan Sensors................6-5 6.4.4 Power Supply Sensors............6-5 6.4.5 IPMB Power ................6-5 6.5 Electrical Description ..............6-6 6.5.1 Relay Contacts..............6-6 0818D User’s Guide...
  • Page 7 6.7.5 Battery Connector .............6-17 6.7.6 Pin Assignments for DB9 Connector for Digital Input/Output ............6-17 Appendix 1. Technical Reference P1 Connector Pin Assignments (System Slot) ......A1-1 P1 Connector Pin Assignments (I/O Slot)........A1-2 P1 Signal Descriptions............... A1-3 0818D User’s Guide...
  • Page 8 P3, P4, P5 Connectors Pin Assignments (System Slot).... A1-7 P4 Connector Pin Assignments (Computer Telephony Bus) (I/O Slot) ................A1-8 P4 Signal Descriptions (Computer Telephony Bus) (I/O Slot)... A1-9 Appendix 2. Glossary of Terms Appendix 3. Limited Warranty Appendix 4. FCC Information 0818D User’s Guide...
  • Page 9 Table of Contents This page was intentionally left blank 0818D User’s Guide...

  • Page 11: Chapter 1. Introduction

    Chassis Management Controller manageable through its RS232 port by an external device. See Chapter 6 for a discussion of the CMC as it relates to the 0818D. Refer to the CMC Programmer’s Guide for further instructions and specifications.
  • Page 12 Chapter 1 - Introduction This page was intentionally left blank 0818D User’s Guide...

  • Page 13: Chapter 2. Specifications

    Chapter 2 - Specifications 2 Specifications 2.1 Overview • The I-Bus 0818D is designed to serve the Telecom Company/Central Office market for rack mount HA Full Hot- Swap CompactPCI systems. • The system is an 8U, 18-slot, CompactPCI Platform consisting of sixteen node slots and two fabric slots.

  • Page 14: Mechanical

    PICMG 2.16 Link Port signals IPMB BACKPLANE FAN TRAY FILTERED AIR INTAKE Figure 2-1. 0818D Block Diagram 2.2 Mechanical 2.2.1 Enclosure • Designed for EIA RS-310 19” and 23” rack mounts. • Detachable rack mount brackets can be positioned for front flush mount or mid-chassis rack mount.

  • Page 15: Basic Chassis Configuration

    • Hot air exhaust shall be in the rear above the 6U backplane. • Overall dimensions are 14.00” High, 17.10” Wide, 12.00” Deep. 2.2.2 Power Subsystem The following specifications apply to a 25° ° ° ° C ambient temperature condition: 0818D User’s Guide...
  • Page 16 75mV for +5V and 3.3V 150mV for +12V 150mV for –12V • Load Regulation is: +/-5% for +5V, +3.3V and +12V +/-10% for –12V • Power Supply MTBF is at least 100,000 hrs, operating full load at 25 C (MIL-217). 0818D User’s Guide...

  • Page 17: Dc Input Power Modules

    (+, -, Gnd) • Input Protection: One single pole 25A circuit breaker in the negative lead and a 30A fuse in the positive lead. 2.2.4 Backplane • The backplane portion of the system incorporates I-Bus proprietary cPCI monolithic backplane. 0818D User’s Guide...

  • Page 18: Cpci Backplane

    I2C sensor components at strategic locations within the enclosure. 2.2.4.2 Backplane CMC Connector • Chassis Management Controller (CMC) is optional to the system enclosure. 0818D User’s Guide...

  • Page 19: Hardware

    • The backplane CMC connector shall be located behind the power supply connectors on the cPCI backplane. 2.2.5 Hardware • The 0818D system consists of a single SBC connected to the CompactPCI backplane. 2.2.5.1 CMC Board • The CMC (Chassis Management Controller) board is optional.

  • Page 20: Software

    Power Supply status (four power supplies) • Two versions of the CMC shall be supported by the 0818D. Which one is used will depend on the functionality of the SBC that occupies the main system slot. If this SBC is PICMG 2.9 compliant, with a BMC, the “Chassis Management”...

  • Page 21: Vibration/Shock

    10g @ 11 msec • NEBS earthquake zone 4. • Storage/transport shock. 30g @ 11 msec. 2.3.5 Safety Agency • UL 1950, • cUL or CSA 950 • TUV EN 60950 • CE • FCC Class A. • NEBS 0818D User’s Guide...

  • Page 23: Chapter 3. Hardware

    CAUTION! PLEASE NOTE Any unoccupied slots, both front and rear, must be covered by a filler plate in order for proper cooling airflow to take place. Leaving a slot uncovered could result in overheating failure more system components. 0818D User’s Guide...

  • Page 24: Sbc Module

    Chapter 3 - Hardware 3.1 SBC Module The 0818D supports one PICMG compliant Single Board Computer (SBC). The SBC is mounted through the front of the enclosure in slot #1. The SBC is held in place with two injector/ejector handles that stabilize the board when they are engaged.

  • Page 25: Add-In Boards

    They are held in place with two injector/ejector handles that stabilize the boards when they are engaged. The 0818D provides for full hot swap of add-in boards to PICMG 2.1 R2.0 and PICMG 2.12 R1.0 standards, supporting both vendor specific hot-swap software or Pigeon Point Systems Hot Swap Kit software.

  • Page 26: Rear I/O Transition Modules

    3.3 Rear I/O Transition Modules The 0818D is configured to support rear I/O transition modules. 3.3.1 Removal of the Rear I/O Transition Modules 1. If the corresponding front I/O board has been removed as a hot swap board, the rear I/O transition module can be removed without powering down the system.

  • Page 27: Insertion Of A Rear I/O Transition Module

    3. Secure the rear I/O board module by tightening the two captive screws (if they are present). 4. Turn on the main system power. 0818D User’s Guide...

  • Page 28: Cmc (Chassis Management Controller) Board

    Chapter 3 - Hardware 3.4 CMC (Chassis Management Controller) Board The 0818D supports a Chassis Management Controller (CMC) Board in a connector slot located behind the power supply connectors on the rear of the cPCI backplane. Refer to Chapter 6 for more information about this optional feature.

  • Page 29: Indicators And Controls

    3.4.1.7 LED Test Pushbutton This pushbutton initiates a test cycle of the five LEDs on the front plate of the CMC Board. Each LED, beginning with the Critical Alarm LED, will be illuminated for approximately one second. The 0818D User’s Guide...

  • Page 30: Aco Off Pushbutton

    1. With the Injector/Ejector handles in their outward (open) position, insert the rear I/O module on its card guides until the handle latches begin to engage. Make sure the two guide pins mate properly into the corresponding hole in the rear I/O card guides. 0818D User’s Guide...

  • Page 31: Backplane

    Do not attempt to remove the backplane from the chassis. The backplane is not a user-serviceable item. Please contact I-Bus Technical Support for further information. In the 0818D system, the SBC occupies slot #1 and/or slot #9. 0818D User’s Guide...

  • Page 32: Backplane Cooling Fans And Blowers

    Figure 3-2. Front View of I-Bus Monolithic Backplane 3.6 Backplane Cooling Fans and Blowers For optimum cooling, the 0818D has eight 9.5 cfm fans at the bottom of the card cage, two 23 cfm fans under the power supplies, and three blowers located at the top of the card cage.

  • Page 33: Removal Of The Cooling Blowers

    Figure 3-5. Cooling Blowers (one partially withdrawn) 2. Remove the access cover and withdraw the blower to be replaced (see Figure 3-5). To remove the rightmost blower it is necessary to rotate the small Display/Status board fully outward on its hinge (see 0818D User’s Guide 3-11...

  • Page 34: Installation Of The Cooling Blowers

    2. Replace the blower access cover being careful that the LED’s and small pushbuttons properly align with and project through the holes in the cover. Tighten the thumbscrew to secure the cover. 3-12 0818D User’s Guide...

  • Page 35: Chassis Filter

    3.7.2 Replacing the Chassis Filter 1. Replace the filter in the fan access cover and replace the access cover on the chassis. 2. Secure the fan access cover by tightening the captive thumbscrew. 0818D User’s Guide 3-13...
  • Page 36 Chapter 3 - Hardware This page was intentionally left blank 3-14 0818D User’s Guide...

  • Page 37: Chapter 4. Power Distribution

    4.1 Dual Input Power Modules The reliability of the 0818D system is enhanced by being powered by two independent DC power sources. The utilization of these two power sources is controlled by two input power modules, each fed by a different and separate source of power.
  • Page 38 Figure 4-2. Rear View of Chassis Showing DC Input Power Modules Warning If both input power modules are fully inserted into the backplane, but only one has external voltage applied, dangerous voltage will be present at the terminals of the second module. 0818D User’s Guide...

  • Page 39: Thermal Shutdown

    N+1 configuration. Any one of the four power supplies may be removed and replaced with the system power on without interrupting the system. Figure 4-3 shows one of the power supply modules. 0818D User’s Guide...

  • Page 40: To Remove A Failed Power Supply Module

    3. Depress the injector/ejector handle latch and pull the handle outward to release the power supply module from its backplane connectors. Note: This may require some force. 4. Slide the power supply module out of the chassis. 0818D User’s Guide...

  • Page 41: To Replace A Power Supply Module

    (as well as a 30 ampere fuse in the positive input lead). The ON/OFF switch on the front panel is used to interrupt or restore DC power from the power supply to the backplane, fans, and blowers. 0818D User’s Guide...
  • Page 42 Chapter 4 – Power Distribution This page was intentionally left blank 0818D User’s Guide...

  • Page 43: Chapter 5. Software

    Chapter 5 – Software 5 Software The 0818D can be preloaded with Microsoft Windows 2000, Windows NT 4.0, or Linux operating system, or with the SUN Solaris 7 or 8 operating system. For software configuration support on this platform, refer to the software manufacturer’s Installation and Configuration manual.
  • Page 44 Chapter 5 – Software This page was intentionally left blank 0818D User’s Guide...

  • Page 45: Chapter 6. Platform Management Option

    The IPMB0 is driven by an I C bus controller. 6.2 Description The CMC Board is plugged into the back of an I-Bus cPCI monolithic backplane, and mounted vertically behind the power supply connectors. Figure 6-1 shows the architecture of a CMC Board in conjunction with the SBC(s) in a cPCI system.
  • Page 46 GND pin3: SDA pin4: +5V (IPMB PWR) pin5: (ALERT) I2C0 I2C1 I2C1_x to backplane IPMB0 I2C2 I2C2_x to backplane IPMB1 CMC Controller Chip (eg. VSC215) I2C3 I2C3_x Local I2C LM75 Backkplane Connector Figure 6-2. I2C Ports Assignment 0818D User’s Guide...

  • Page 47: Cmc Board Mechanical And Environmental Specifications

    6.3 CMC Board Mechanical and Environmental Specifications 6.3.1 Physical Size • 9.190” high X 3.150” wide. • Mounts to 6U rear panel of I-Bus custom monolithic cPCI backplane. 6.3.2 User Access • Chassis Management Controller Card is mounted vertically in the rear of the chassis, behind the power supply connectors.

  • Page 48: Voltage Sensors

    *Volt sensors 5 and 6 monitor the input voltage to the power input modules. The accuracy for the above voltages is shown in the following table. Please see Table 6-1 for information about the normal ranges and thresholds associated with them: 0818D User’s Guide...

  • Page 49: Fan Sensors

    500 mA hot swap transient. The CMC board monitors its own IPMB power voltage. The IPMB power voltage is shown as Volt7 in Table 6-1. Default SDR Parameters. Any IPMB_PWR reading outside these thresholds will set a Major Alarm. 0818D User’s Guide...

  • Page 50: Electrical Description

    The recommended battery is POWERSONIC PS-605, with battery capacity of 0.5 Ah. The acceptable output range of the battery is 6V ±5%. The CMC board monitors the battery output voltage. Any battery voltage reading outside the above threshold will set an Alarm. 0818D User’s Guide...

  • Page 51: Host Serial Interface Ports

    The default port setup is 19200, 8, n, 1. The CMC is also connected to IPMB0 in the backplane so that an IPMI compliant BMC can manage it. The I-Bus 2801 and 2802 SBCs provide such a BMC. Using this interface does not require any external connectors.

  • Page 52: Cmc Health Led

    The communication port(s) between the CMC module and host controller are needed for the purpose of setting up the module parameters and acquiring the CMC status. Reply message/packet from the CMC controller chip is sent to the requestor only. 0818D User’s Guide...

  • Page 53: System Monitoring Software

    Get Sensor Reading Factors command. The documentation for this command, explaining how to perform the conversion, can be found in the I-Bus Platform Management Programmer’s Guide. CMC will log SEL (System Event Log) entries in the event of a violation of a sensor threshold.
  • Page 54 Please see the section on Sensor Data Records (SDR) and the commands, Reserve SDR Repository, Get SDR, Delete SDR, and Partial Add SDR in the I-Bus Platform Management Programmer’s Guide for more information. All configuration parameters are stored in a non-volatile memory, and are used to operate the CMC controller on power up.
  • Page 55 Threshold Minor Alarm = Upper Non-Critical Threshold or Lower Non-Critical Threshold By default, fan Sensors 3, 4, and 5 will only trigger minor alarms. By default, voltage and power supply sensors will only trigger major alarms. 0818D User’s Guide 6-11...

  • Page 56: Ipmi Command Interface Software

    Furthermore, the CMC controller chip enables its own internal hardware watchdog timer, causing it to reset itself in case the firmware does not actively refresh the timer. When this happens, the CMC LED will be red for a moment while the self-test is performed. 6-12 0818D User’s Guide...

  • Page 57: Cmc Connector Pins

    PWR_GD3 PWR_GD4 TEST_SW GND 13 PWR_EN1 PWR_EN2 PWR_EN3 PWR_EN4 GND 14 +12V +12V +12V +12V +12V GND 15 P3_CRT MJR_LED MNR_LED ACO_LED ACO_SW GND 16 IPMB_PWR GND GND 17 3.3Vs 12Vs 12VNs GND 18 GND 19 0818D User’s Guide 6-13...

  • Page 58: Cmc-P4 Connector Pinout Assignments

    PWR_GD4 TEST_SW GND 19 PWR_EN1 PWR_EN2 PWR_EN3 PWR_EN4 GND 20 +12V +12V +12V +12V +12V GND 21 CRT_LED MJR_LED MNR_LED ACO_LED ACO_SW GND 22 IPMB_PWR GND GND 23 3.3Vs 12Vs 12VNs Vbat GND 24 GND 25 6-14 0818D User’s Guide...

  • Page 59: Nebs Cmc Relay Output Connector Pinouts

    PIN# SIGNAL NAME K1 RESISTOR COMMON K1 COMMON K1 N.C. K1 N.O. K2 RESISTOR COMMON K2 COMMON K2 N.C. K2 N.O. K3 RESISTOR COMMON K3 COMMON K3 N.C. K3 N.O. 6.7.4 RS-232 Pinouts PIN# SIGNAL NAME 0818D User’s Guide 6-15...

  • Page 60: Battery Connector

    Molex type 22-01-3027 housing with 08-58-0110 terminals. PIN# SIGNAL NAME Battery + Battery - 6.7.6 Pin Assignments for DB9 Connector for Digital Input/Output PIN# SIGNAL NAME Input Input Output Output Input Output 6-16 0818D User’s Guide...
  • Page 61 Chapter 6 – Platform Management Option This page was intentionally left blank 0818D User’s Guide 6-17...

  • Page 63: Appendix 1. Technical Reference

    AD[26] V(I/O) AD[25] AD[24] AD[30] AD[29] AD[28] AD[27] REQ_ VCC3 CLK0 AX[31] BRSVP1A5 BRSVP1B5 PCI_RST_ GNT0 IPMB_PWR HEALTHY V(I/O) INTP INTS INTA_ INTB_ INTC_ INTD_ -12V TRST_ +12V Table A1-1: P1 Connector Pin Assignments (System Slot) 0818D User’s Guide A1-1...

  • Page 64: P1 Connector Pin Assignments (I/O Slot)

    AD[23] AD[22] AD[26] V(I/O) AD[25] AD[24] AD[30] AD[29] AD[28] AD[27] REQ_ VCC3 AX[31] BRSVP1A5 BRSVP1B5 PCI_RST_ IPMB_PWR HEALTHY V(I/O) INTP INTS INTA_ INTB_ INTC_ INTD_ -12V TRST_ +12V Table A1-2: P1 Connector Pin Assignments (I/O Slot) A1-2 0818D User’s Guide...

  • Page 65: P1 Signal Descriptions

    Data Parity Error reporting signals SERR_ System Error PCI bus speed signals M66EN 66MHz bus enable PCI bus clock CLK0 System Management IPMB_SCL IPMB_SDA IPMB_PWR 64-bit Extension REQ64_ Request 64-bit Transfer Signals ACK 64_ Acknowledge 64-bit Transfer 0818D User’s Guide A1-3...
  • Page 66 Scan Signals Test Input Test Output Test Mode Select TRST_ Test Reset IDE Interrupts INTP Primary Interrupt (IRQ14) INTS Secondary Interrupt IRQ15) Hot Swap compatible ENUM_ System Enumeration signals BD_SEL_ Board Slot Control HEALTHY_ Board Healthy A1-4 0818D User’s Guide...

  • Page 67: P2 Connector Pin Assignments (System Slot)

    C/BE[7]_ C/BE[6]_ CLK4 GNT3_ REQ4_ GNT4_ CLK2 CLK3 SYSEN_ GNT2_ REQ3_ CLK1 REQ1_ GNT1_ REQ2_ _ = signal is active low “ = signal is not currently used Table A1-3: P2 Connector Pin Assignments (System Slot) 0818D User’s Guide A1-5...

  • Page 68: P2 Connector Pin Assignments (I/O Slot)

    AD[60] C/BE[5] V(I/O) C/BE[4]_ PAR64 V(I/O) BRSVP2B4 C/BE[7]_ C/BE[6]_ RSV” RSV” RSV” RSV” RSV” RSV” _ = signal is active low “ = signal is not currently used Table A1-4: P2 Connector Pin Assignments (I/O Slot) A1-6 0818D User’s Guide...

  • Page 69: P2 Signal Descriptions

    The P3, P4, and P5 connector pinouts are unique to the CP1500 Sparc CPU board and described in the SPARCengine CP1500 360MHz/440MHz Technical Reference and Manual, located at the Sparc web site: http://www.sun.com/microelectronics/SPARCengineCP/1500 0818D User’s Guide A1-7...

  • Page 70: P4 Connector Pin Assignments (Computer Telephony Bus) (I/O Slot)

    VCC3 CT_NETREF_2 CT_D11 CT_D12 VCC3 SCLK CT_D8 CT_D9 CT_D10 SCLKx2 CT_D4 CT_D5 CT_D6 CT_D7 CT_D0 VCC3 CT_D1 CT_D2 CT_D3 _ = signal is active low Table A1-5: P4 Connector Pin Assignments (Computer Telephony Bus) (I/O Slot) A1-8 0818D User’s Guide...

  • Page 71: P4 Signal Descriptions (Computer Telephony Bus)(I/O Slot)

    SCLK 8.192MHz SCbus compatibility data clock SCLKx2 Skewed 8.192MHz SCbus compatibility data clock CT_EN_ Logical equivalent of the CPCI signal BD_SEL_ on P1 CT_Reset Reset for use by CT Front Cards that do not populate P1 0818D User’s Guide A1-9...
  • Page 72 VbatRtn Telecom power source return -SELVbat Short loop battery (voltage within SELV limits) SELVbatRtn Short loop battery return (voltage within SELV limits) Telecom Ringing Bus VRG Bussed ringing voltage VRGRtn Bussed ringing voltage return for VRG A1-10 0818D User’s Guide...

  • Page 73: Appendix 2. Glossary Of Terms

    EMI (ElectroMagnetic Interference): Noise generated by the switching action of the power supply and other system components. Conducted EMI is interference generally conducted into the power line, and is normally controlled with a line filter. Radiated EMI is that 0818D User’s Guide A2-1...
  • Page 74 I/O slot: A slot for plugging in additional I/O cards to expand the capability of a computer. ISA: The original IBM/PC expansion bus standard released into the public domain by IBM. keyboard connector: The connector through which keyboard signals are input to a computer. kilobyte (KB): 1,024 bytes. A2-2 0818D User’s Guide...
  • Page 75 It is usually located on the front computer panel or the rear panel near the input power cable. RAID (Redundant Arrays of Independent Disks): A storage technology using an array of two or more disks to redundantly store 0818D User’s Guide A2-3...
  • Page 76 A two-channel port, one channel used for ”In” transmissions and one for ”Out” transmissions. watchdog timer: A device that monitors CPU activity and resets the CPU when no activity is detected for a user specified period. A2-4 0818D User’s Guide...

  • Page 77: Appendix 3. Limited Warranty

    Appendix 3 – Limited Warranty LIMITED WARRANTY I-Bus warrants this product to be free of defects in material and workmanship for an initial period of one (1) year from date of delivery to the original purchaser from I-Bus. During this period, I-Bus will, at its option, repair or replace this product at no additional charge to the purchaser, except as set forth in this warranty agreement.
  • Page 78 Appendix 3 – Limited Warranty This page was intentionally left blank A3-2 0818D User’s Guide...

  • Page 79: Appendix 4. Fcc Information

    NOTE: This product was FCC verified under test conditions that included the use of shielded I/O cables and connectors between system components. To be in compliance with FCC regulations, the user must use shielded cables and connectors and install them properly. 0818D User’s Guide A4-1...
  • Page 80 Appendix 4 – FCC Information This page was intentionally left blank A4-2 0818D User’s Guide...

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