Intel NetStructure ZT 5085 12U Manual
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Intel NetStructure ZT 5085 12U Manual

Intel NetStructure ZT 5085 12U Manual

Redundant host packet switched platform
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Intel
NetStructure
ZT 5085 12U
Redundant Host Packet Switched
Platform
Technical Product Specification
October 2004
Order Number: 273790-005

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Summary of Contents for Intel NetStructure ZT 5085 12U

  • Page 1 ® Intel NetStructure ZT 5085 12U Redundant Host Packet Switched Platform Technical Product Specification October 2004 Order Number: 273790-005...
  • Page 2 The information in this manual is furnished for informational use only, is subject to change without notice, and should not be construed as a commitment by Intel Corporation. Intel Corporation assumes no responsibility or liability for any errors or inaccuracies that may appear in this document or any software that may be provided in association with this document.

  • Page 3: Table Of Contents

    Contents Introduction ............................9 Product Definition .........................9 Highlights ..........................9 Standard Features ......................11 1.3.1 Midplane Slot Assignments ................... 11 Configuration Options ......................12 1.4.1 Two CompactPCI* Bus Segments .................13 1.4.2 One Extended CompactPCI* Bus ................15 1.4.3 Redundant Host ..................... 16 1.4.4 Independent Servers .....................
  • Page 4 4.1.1 DC Systems......................48 DC System Redundancy ....................48 AC Systems ........................49 Power Budgeting ........................ 49 4.4.1 Redundant Power Feeds and Power Supplies ............50 Power Supply Capacity and Multiple Voltages ..............50 4.5.1 CMMs and Fan Trays .................... 50 4.5.2 Cooling Capacity....................
  • Page 5 The Power Supply Perspective................... 93 Intel® NetStructure™ Power Supplies................93 Data Sheet Reference ........................95 CompactPCI* ........................95 User Documentation ......................95 Warranty Information ........................97 ® Intel NetStructure™ Compute Boards & Platform Products Limited Warranty ....97 D.1.1 Returning a Defective Product (RMA)..............97 D.1.2...
  • Page 6 20 Midplane Assembly Retention Screw Locations................. 44 21 Replacing the Midplane Assembly ..................... 45 22 ZT 5085 Power Distribution Overview (DC System) ..............48 23 Power Trays ..........................52 24 ZT 5085 Midplane Power Distribution ..................54 25 Airflow ............................55 26 Fan Tray Mezzanine Jumper ......................
  • Page 7 35 P3 Connector CMM Pin Assignments ..................90 Revision History Date Revision Description Clarified slot and midplane arrangement; updated product October 2004 return shipping information. May 2004 Changed value on slot interface table. Name changes, filler panel info and synch up with July 2003 documentation.
  • Page 8 Technical Product Specification...

  • Page 9: Introduction

    The Intel NetStructure™ ZT 5085 12U Redundant Host Packet Switched Platform is one of several telecom building blocks from Intel, providing OEM equipment designers with carrier- grade, standards-based, high availability solutions built on the PICMG* 2.16 specification. This high-capacity CompactPCI* platform features 18 node slots and a redundant infrastructure (fabric, management, power, and cooling) making it ideal for carrier-grade telecom and Internet applications.

  • Page 10: Features (Front)

    Introduction —N+1 hot-swappable fan trays for cooling —N+N hot-swappable, load-sharing 250 W AC or DC power supplies —N+N power input • Highly Flexible - Multiple midplane configuration options — 16 node slots support 64-bit/33 MHz PCI operation — Two node slots with no PCI connection —...

  • Page 11: Standard Features

    Introduction Figure 2. Features (Rear) Cooling System Exhaust 21 Rear Panel I/O Slots Power Input Cover Power Standby Switch ESD Ground Jack B2729-02 Standard Features The ZT 5085 is a basic platform building block, designed to support PICMG* 2.16-compliant processor boards, switches, and peripherals. The platform consists of: •...

  • Page 12: Configuration Options

    Introduction Slot 1 is dedicatied to two 3U Chassis Managment Modules (CMMs-Intel® NetStructure™ ZT7102). Slots 2 and 21 are dedicated to 6U PICMG* 2.16-compliant Ethernet switches (fabric boards).Slots 3 through 18 are PICMG 2.16-compliant node slots, each supporting a 33 MHz, 32/64-bit CompactPCI* bus interface.

  • Page 13: Two Compactpci* Bus Segments

    Introduction 1.4.1 Two CompactPCI* Bus Segments The ZT 5085 can be used in a configuration that supports two independent CompactPCI* bus segments. Segment 1 consists of slots 3-9 and 11. Segment 2 consists of slots 10 and 12-18. Each segment includes two multi-purpose slots: •...

  • Page 14: Two Compactpci* Bus Segments

    Introduction Figure 4. Two CompactPCI* Bus Segments CompactPCI CompactPCI CompactPCI Segment 1 Segment 2 Segment 2 Peripheral Slots Peripheral Slots Multi-Purpose Slots H.110 Bus CompactPCI CompactPCI Compac pac PC CompactPCI CompactPCI Compac pac PC Segment 1 Segment 1 e e me e t Segment 2 Segment 2 e e me e t t...

  • Page 15: One Extended Compactpci* Bus

    Introduction Figure 5. Two Independent CompactPCI* Bus Segments CompactPCI CompactPCI Segment 1 Segment 2 Segment 1 System Slot Board Segment 2 System Slot Board 1.4.2 One Extended CompactPCI* Bus The ZT 5085 can be used in a configuration that supports one “extended” bus. The extended bus is comprised of two bus segments that are bridged to become part of the same bus hierarchy.

  • Page 16: Redundant Host

    Resource management and data base information is synchronized between the processor boards via 100 Mbps Ethernet. For more information about Intel’s High Availability architecture and development of Redundant ® Host drivers, refer to the High Availability Software for the Intel NetStructure™...

  • Page 17: Independent Servers

    Introduction Figure 7. Redundant Hosts Controlling Two CompactPCI* Bus Segments Host Processor Board Bridge Mezzanine Board Bridge Mezzanine Board Redundant Host Processor Board 1.4.4 Independent Servers TheZT 5085 can be used in a configuration that supports 18 independent servers communicating over the PICMG* 2.16 Ethernet midplane (slots 3-20).

  • Page 18: Chassis Management Modules

    Chassis Management Modules ® The ZT 7102 is the central management component for all Intel NetStructure™ platforms that are PICMG 2.16-compliant, including the ZT 5085. It uses standards-based interfaces, allowing management of third-party IPMI-based products within an Intel NetStructure platform. It communicates with the components in the ZT 5085 via point-to-point IPMB buses in a unique star topology to achieve comprehensive, highly available, and secure management.

  • Page 19: Picmg* 2.16 Backplane Ethernet Routing

    Introduction PICMG* 2.16 Backplane Ethernet Routing PICMG* 2.16-compliant, in-chassis switches minimize external wiring, thus improving density and reliability. As listed in Appendix A under “Standard Fabric Slot P3/P4/P5 Interfaces” on page • Ports 1-18 correspond to chassis slots 3-20. • For each node board, port “A”...
  • Page 20 Introduction Technical Product Specification...

  • Page 21: Getting Started

    Support,” for assistance information. Caution: Intel has designed special packing material to protect the system during shipping. It is critical that the packing material be saved after unpacking the enclosure in case the unit must be shipped again for any reason. Remove all boards except CMMs and those that came with the chassis before shipment;...

  • Page 22: Zt 5085 Example System (Front)

    Getting Started Required Additional Components: • Air management boards for front slots (required in otherwise unpopulated slots for correct operation) • Filler panels for rear slots (required in otherwise unpopulated rear panel slots for correct operation). • Four AC Power cords for AC systems Figure 9.

  • Page 23: Installing The System

    U.S. and international electromagnetic regulatory standards. Ensure the blank filler panels and air management blades include EMI gaskets and are compatible ® with CompactPCI* industry standard. See the Intel NetStructure ZT 5085/88/89/90/91 Chassis Compatibility Report for a list of compatible blank filler panels and air management blades.

  • Page 24: Rack Mounting The System

    Getting Started 2.3.1 Rack Mounting the System This system is intended for stationary mounting in a rack designed to meet the physical strength requirements of NEBS GR-63-CORE and NEBS GR 487. Be sure to mount the system in a way that ensures even weight distribution in the rack.

  • Page 25: Providing Power

    Warning: Mixing models of power supplies is not supported, and could damage the system. Use only power supplies approved by Intel for use in the system. 2.3.3.1 Connecting AC Power (P1 Option) 1. Ensure that the power standby switch is in the “standby” ( ) position.
  • Page 26 Getting Started 6. The A1 and B1 connections provide redundant power feeds to power tray 1. For full redundancy, these connections must: — Have independent circuit breakers — Come from different sources (or at least different phases) 7. The A2 and B2 connections provide redundant power feeds to power tray 2. For full redundancy, these connections must: —...

  • Page 27: Connecting I/O Devices

    Getting Started Figure 12. ZT 5085 DC Power Input Panel (P2) Note: For permanently connected equipment, a readily accessible disconnect device should be incorporated in the building wiring installation. Circuit breakers should be rated to handle the current indicated in the input specifications listed on the product identification label at the rear of the ZT 5085.

  • Page 28: Setup And Configuration

    4. The switches must have a network connection between them, either via the inter-fabric port (LPf) or via external connections. Note: Optionally, the CMMs may be connected through an external ethernet switch. See the Intel® NetStructure™ ZT 7102 Chassis Management Module Technical Product Specification for more information.

  • Page 29: Slot Assignments

    Getting Started Figure 13. ZT 5085 BD_SEL# Jumper Locations Midplane Front J1 - J20 BD_SEL# Jumpers It is not considered a valid configuration to have CMM and BD_SEL# jumpers installed simultaneously. This configuration may cause software to behave incorrectly. 2.4.2 Slot Assignments The ZT 5085's midplane supports geographic addressing;...
  • Page 30 Getting Started Table 1. V(I/O) Related Slot Capabilities Universal Voltage V(I/O) 66 MHz Operation 3.3 V Boards 5 V Boards Boards 3.3 V Not all V(I/O) planes need to be configured for the same level. It is valid to have some V(I/O) planes set to 3.3 V while others are set to 5 V.

  • Page 31: Disabling The Power Standby Switch

    Getting Started Figure 14. ZT 5085 V(I/O) Shunt Locations Midplane Front 3.3V Shunt 5V Shunt Warning: It is critical that each V(I/O) plane does not have both its 3.3 V and 5 V shunts loaded simultaneously. Doing so causes permanent damage to the midplane and could pose a fire hazard. 2.4.4 Disabling the Power Standby Switch Removing jumper J7 from both power trays disables the power standby switch.

  • Page 32: Power Standby Switch Disable Jumper Locations

    Getting Started Warning: It is critical that both power trays have the same J7 jumper configuration. If the power trays are configured differently, the power standby switch controls only one power tray. This can result in an improper cooling scenario. Figure 15.

  • Page 33: Field Replaceable Units

    Field Replaceable Units Field Replaceable Units Field Replaceable Units (FRUs) are modular components that can be replaced as a unit. Some FRUs are hot swappable and can be serviced without turning the system off. The following topics discuss working with the ZT 5085's modular components including the Chassis Management Module, board-level components, power supplies, and the fan trays.

  • Page 34: Installing The Cmm

    The following instructions cover the mechanical aspects of installing the ZT 7102 CMM in a ZT ® 5085 system. Refer to the Intel NetStructure™ ZT 7102 Chassis Management Module Technical Product Specification for more information on configuring the CMM. See Appendix C, “Data...

  • Page 35: Working With Board-Level Components

    Caution: Some third-party CompactPCI* boards use latches with alignment pins that insert into tapped screw holes in the chassis. Intel highly recommends removing the alignment pins prior to insertion of these boards into the chassis. Insertion of alignment pins into tapped screw holes can generate metal particles, resulting in product failure.

  • Page 36: Removal And Installation Of Boards

    Note: For ease of installation when fully loading the system, Intel recommends filling slot 11 first, then working outward to fill each odd-numbered slot, and finally filling slot 10 and working outward to fill each even-numbered slot.
  • Page 37 Field Replaceable Units 3.2.1.2 Removing a Board The following steps cover the mechanical aspects of removing boards from a ZT 5085 chassis. 1. Determine if your board/slot combination supports hot swap. If the combination does not support hot swap, disable chassis power prior to proceeding. 2.
  • Page 38 3.2.1.3 Installing a Rear Panel I/O Board ® The following steps cover the mechanical aspects of installing an Intel NetStructure™ Rear Panel I/O (RPIO) board. RPIO boards may be installed at the rear of the ZT 5085 in slots 1-21.

  • Page 39: Working With Power Supplies

    Field Replaceable Units Working with Power Supplies The ZT 5085 accommodates up to eight 250 W, CompactPCI*, modular power supplies. The power supplies are load sharing, hot swappable, and plug directly into the power trays (see Figure 17, “Power Supply Orientation” on page 39 for power supply location).

  • Page 40: Installing A Power Supply

    Field Replaceable Units 3.3.1 Installing a Power Supply Note: Because the power supplies are IPMI capable, it is recommended to wait for 40 seconds in between removal and insertion of power supply units to enable the CMM to properly detect and address the power supplies.

  • Page 41: Injector/Ejector Operation (Power Supplies)

    Field Replaceable Units Figure 18. Injector/Ejector Operation (Power Supplies) Open (Ejected) Spring- Loaded Latch Closed (Inserted) Technical Product Specification...

  • Page 42: Removing A Power Supply

    Field Replaceable Units 3.3.2 Removing a Power Supply Note: Because the power supplies are IPMI capable, it is recommended to wait for 40 seconds in between removal and insertion of power supply units to enable the CMM to properly detect and address the power supplies.

  • Page 43: Installing A Fan Tray

    Field Replaceable Units Figure 19. Fan Tray Installation/Removal Screw Latch 3.4.2 Installing a Fan Tray 1. A 1/8" flat-head screwdriver is required to install a fan tray. 2. System power does not need to be turned off to install a fan tray. 3.

  • Page 44: Working With The Midplane

    Field Replaceable Units Working with the Midplane The midplane and card cage assembly is removable for easy access to some midplane components. 3.5.1 Removing the Midplane Assembly To remove the midplane: 1. Turn off the system and disconnect it from power. 2.

  • Page 45: Replacing The Midplane Assembly

    Field Replaceable Units 3.5.2 Replacing the Midplane Assembly To replace the midplane: 1. Orient the cage so the side with the removed card guides is up. 2. Position the cage in the system so the four guide pins on the outer sides of the cage align with the four guide notches in the enclosure.
  • Page 46 Field Replaceable Units Technical Product Specification...

  • Page 47: Power Subsystem

    Intel has designed the ZT 5085 platform specifically to meet the increasing requirements of the telco environment and central office. The ZT 5085 chassis delivers a highly redundant N+N power system including dual power domains on the midplane.

  • Page 48: Dc Systems

    Power Subsystem Figure 22. ZT 5085 Power Distribution Overview (DC System) Fan Tray Fan Tray Fan Tray Backplane Power Power Feed A Feed B 4.1.1 DC Systems There are twofour redundant DC power feeds:. A and B. Each DC power feed provides input to two power supplies in each of the two power trays.

  • Page 49: Ac Systems

    Power Subsystem Table 5. ZT 5085 Power Fault Tolerance Matrix (DC) Failure Healthy Feeds Healthy Supplies Watts No faults‘ 1000 (Redundant) Power Supply Fault 1000 (Partial redundancy) Feed A fault 1000 (Non-redundant) Feed B fault 1000 (Non-redundant) AC Systems There are four AC power feeds: A1, A2 and B1, and B2. Each AC power feed provides input to two power supplies, A1 to PS1+PS3, A2 to PS5+PS7, B1 to PS2+PS4, and B2 to PS6+PS8.

  • Page 50: Redundant Power Feeds And Power Supplies

    (3.3 V, 5 V, +12 V, and -12 V). The power capacity is dependent on the specific model of power supplies being used. ® For a system using eight Intel NetStructure™ ZT 6303 250 W Hot Swap AC Power Supplies or ®...

  • Page 51: Cooling Capacity

    Power Subsystem Note that in the event of a power domain failure, 100 percent of the CMM and fan tray power is drawn from a single domain. However, the healthy domain has a complete set of power supplies (assuming only single failures); that is, 50 percent is drawn from the “budget” supplies and 50 percent from the “redundant spare”...

  • Page 52: Power Trays

    Power Subsystem The A and B connections provide redundant input power to both power trays. The A connections provides power to PS2, PS4, PS5 and PS7PS1, PS3, PS5 and PS7. The B connection provides power to PS1, PS3, PS6, and PS8PS2, PS4, PS6, and PS8. For full redundancy, these feeds must: •...

  • Page 53: Power Standby Switch Disable Jumper

    Supplies” on page 4.8.1 AC Input Power Supplies ® AC systems are powered by the Intel NetStructure ZT 6303 250-Watt Hot Swap AC Power Supply. The AC input ZT 6303 is a hot-swap, CompactPCI* power supply using a standard Positronic 47- pin connector that is fully compliant with the PICMG 2.11 Power Interface Specification.

  • Page 54: Midplane Power Distribution

    Power Subsystem Table 9. DC Input Specifications Parameter Conditions/Description Units Input Voltage –DC Continuous input range. Hold-up Time From 48 VDC Input. Input Current At full rated load; 36 VDC, 48VDC 7.6, 5.4 Non-user serviceable, internally-located input Input Protection line fuse Internally limited by thermistor and electronic Inrush Surge Current switch.

  • Page 55: Cooling Subsystem

    Cooling Subsystem Cooling Subsystem The ZT 5085 utilizes three hot swappable fan trays to cool the chassis. Each fan tray includes three blowers. Figure 25 illustrates the airflow through the platform. Figure 25. Airflow 3 Blowers per an Tray ront Rear Comair* Blower...

  • Page 56: Blowers

    Cooling Subsystem 5.1.1 Blowers Each fan tray contains three blowers, one provided by Delta and two blowers provided by Comair, for a total of nine blowers in an ZT 5085 system. Each blower has a two-phase, four-pole motor. Table 10 lists blower specifications.

  • Page 57: Managing Fan Trays

    If the fan speed is set to 80 percent a Fan Tray event or a Chassis Temp event crossed to a high threshold will cause the fan speeds to go to 100 percent until the event is cleared. ® Please refer to the Intel NetStructure™ ZT 7102 Chassis Management Module Technical Product Specification for further information on managing Fan Trays. See Appendix C, “Data Sheet...

  • Page 58: Intake Grill With Air Filter

    Cooling Subsystem Table 11. Fan Tray Health/Status LED States Color Description Not Powered Green Powered and Healthy Amber Unhealthy The following parameters will turn the LED on the fan tray from green to amber: Logic on fan tray board, no CMM control: •...

  • Page 59: Replacing The Air Filter

    Cooling Subsystem Figure 27. Intake Grill and Air Filter Retention Screws Foam Filter 5.2.1 Replacing the Air Filter The system's air filter clips into the back side of the intake grill. The foam element in the filter is replaceable (Universal Air Filter, Quadrafoam 25PPI HF-1, 0.25" x 7.75" x 16.9"). To replace the air filter: 1.
  • Page 60 Cooling Subsystem Technical Product Specification...

  • Page 61: Specifications

    Specifications Specifications This appendix describes the electrical, environmental, and mechanical specifications of the ZT 5085’s enclosure and midplane. It includes a connector location illustration, connector descriptions, and connector pinouts. Physical and Mechanical Specification This section provides the physical and mechanical specifications for the ZT 5085 chassis. Table 12 lists the chassis dimensions and weight.

  • Page 62: Environmental Specifications

    Specifications Figure 28. Rack Mount 17.00 16.50 12.50 8.50 4.50 0.99 0.50 3.828 B2050-01 Environmental Specifications The ZT 5085 platform (enclosure, fan trays, and midplane) is designed for harsh environments. The platform features sturdy steel and aluminum construction with a corrosion resistant finish. Due to the modular construction of the system, components could be added that change the system’s environmental constraints.

  • Page 63: Electrical Specifications

    Specifications The ZT 5085 platform is designed to meet NEBS and ETSI requirements. Although the ZT 5085 is designed for NEBS-compliance, due to its high power requirements, the system may deviate from NEBS in order to align itself with industry power requirements and trends. Acoustic Sound Pressure: 55.1 dBA with fans operating in normal mode (80 percent of full speed capabilities).

  • Page 64: Universal Midplane

    Specifications Warning: The ZT 5085 is configured for either AC or DC input. The system’s power input configuration (AC or DC) must match the power supply input voltage (AC or DC). DO NOT INSTALL A DC INPUT POWER SUPPLY IN A ZT 5085 CONFIGURED FOR AC INPUT. A.3.1 Universal Midplane The ZT 5085 incorporates a universal midplane that can be jumpered to provide either 5 V or 3.3...

  • Page 65: Zt 5085 Backplane Connector Locations (Front)

    Specifications Figure 29. ZT 5085 Backplane Connector Locations (Front) Chassis FRU Chassis FRU Temperature Sensors Info Device 0 Info Device 1 Midplane Front Technical Product Specification...

  • Page 66: Logic Ground Isolation Capacitors

    Remove C280-C289 to isolate logic ground from earth ground. Figure 31 on page 67 illustrates capacitor locations. The ZT 5085 is shipped from Intel with capacitors installed in these locations. Technical Product Specification...

  • Page 67: Sensors And Thresholds

    –l chassis –t [sensor name] –d thresholdsall to get a list of supported thresholds for that sensor. Please refer to the Intel® NetStructure™ ZT 7102 Chassis Management Module Technical Product Specification for further instructions on how to obtain information from chassis sensors.
  • Page 68 Specifications Table 15. Sensor Default Thresholds (Sheet 2 of 3) Sensor: Threshold: Value (Default) Temp Sns 7-8 (Lower Midplane) Upper Critical: Exhaust Temp Upper Non-Critical: 45.00 Nominal 30.00 Lower Non-Critical: 5.00 Lower Critical 0.00 Fan Tray [1-3] Temp Upper Critical: 70.000 Exhaust Temp Upper Non-Critical:...
  • Page 69 Specifications Table 15. Sensor Default Thresholds (Sheet 3 of 3) Sensor: Threshold: Value (Default) FANTK1 - FANTK9 Upper Critical: Upper Non-Critical: Lower Non-Critical: 2310.000 Lower Critical: 2163.000 FANTK1, 4, 7 Upper Critical: Upper Non-Critical: Nominal Lower Non-Critical: 1500 Lower Critical: 1425 FANTK2, 3, 5, 6, 8, 9 Upper Critical:...

  • Page 70: Mtbf Prediction

    Specifications MTBF Prediction Table 16 lists component, temperature, MTBF, and redundancy information. See table notes at the bottom of this page. Table 16. MTBF Prediction on ZT 5085 DC Sub- Base Total System Module Base Total Sub-System ††Intended Failure Sub-System Component Ambient MTBF...

  • Page 71: Zt 5085 Connector Locations (Front And Rear)

    Specifications Figure 32. ZT 5085 Connector Locations (Front and Rear) CompactPCI CompactPCI CompactPCI CompactPCI Segment 1 Segment 1 Segment 2 Segment 2 Multi-Purpose Multi-Purpose Peripheral Peripheral PCI-Less Slots Slots Slots Slots Node Slots Front PICMG 2.16 Node Slots J1-A1 J2-B1 J1-A1 J2-B1 J3-A2...

  • Page 72: Slot Arrangement

    To operate with redundant host processor boards, install a redundant host/bridge mezzanine board set (Intel's ZT 5524A SBC and ZT 4901A I/O Mezzanine card) in slots 9 and 10, and a second redundant host/bridge mezzanine board set in slots 11 and 12, as illustrated in Figure 7, “Redundant Hosts Controlling Two CompactPCI* Bus Segments”...
  • Page 73 Specifications Figure 33. ZT 5085 Slot Arrangement CompactPCI CompactPCI CompactPCI CompactPCI Segment 1 Segment 1 Segment 2 Segment 2 Peripheral Multi-Purpose Multi-Purpose Peripheral PCI-Less Slots Slots Slots Slots Node Slots H.110 Bus Ethernet CompactPCI CompactPCI Compac pac PC CompactPCI CompactPCI Compac pac PC Segment 1...

  • Page 74: Multi-Purpose Slot P1/P2 Interfaces

    Specifications Table 18. ZT 5085 Slot Interfaces Slot CompactPCI Segment IDSEL P1/P2/P3 P1/P2/P3 Slot CompactPCI Segment IDSEL P1/P2 P4/P5 PCI-Less Standard Fabric Standard Fabric AD25 Peripheral Node H.110 AD26 Peripheral Node H.110 AD27 Peripheral Node H.110 AD28 Peripheral Node H.110 AD29 Peripheral Node...
  • Page 75 1. The CompactPCI specification defines this pin as GND for system slots. This pin corresponds to the BD_SEL# signal in non- system slots. Intel systems that implement CMM slots treat this pin as a BD_SEL# in system slots as well as non-system slots.

  • Page 76: Multi-Purpose Slot P2 Pin Assignments

    Specifications A.6.1.2 Multi-Purpose Slot P2 Interface The table below specifies the P2 interface for the multi-purposeslots. The interface is in accordance with PICMG* 2.0 R3.0. Refer to the PICMG Specification for more detail. Exceptions are noted in the table. Table 20. Multi-Purpose Slot P2 Pin Assignments Pin # CLK6 RSVP2C21...
  • Page 77 These pins are connected to the same pins in the paired multi-purpose slot. 9. This pin is defined as GND in PICMG 2.0 R3.0 for system slots. Intel's RSS solution defines this pin as 64EN# for compatibility with peripheral boards.

  • Page 78: Peripheral Slot P1/P2 Interfaces

    Specifications A.6.2 Peripheral Slot P1/P2 Interfaces This section defines the P1/P2 interface for peripheral slots. A.6.2.1 Peripheral Slot P1 Interface Table 21 specifies the P1 interface for the peripheral slots. The interface is in accordance with the PICMG* 2.0 R3.0 and PICMG 2.16 R1.0 specifications. Refer to the PICMG specifications for more detail.

  • Page 79: Pci-Less Slot P1/P2 Interfaces

    Specifications A.6.2.2 Peripheral Slot P2 Interface Table 22 specifies the P2 interface for peripheral slots. The P2 interface for peripheral slots is defined in the PICMG* 2.0 R3.0 specification. There are no deviations from the specification for this interface. Refer to the PICMG specifications for more detail. Table 22.

  • Page 80: Compactpci* Pci-Less Slot P1 Pin Assignments

    1. ENUM# is not connected per the PICMG 2.16 R1.0 specification. 2. Intel systems that implement CMM slots route slot-specific IPMBs to the CMM(s) in a star topology. The IPMB in slot n is connected to the N_SCLn and N_SDAn signals on the CMM(s).

  • Page 81: Compactpci* Pci-Less Slot P2 Pin Assignments

    Specifications A.6.3.2 CompactPCI* PCI-Less Slot P2 Interface Table 24 specifies the P2 interface for PCI-less slots. The interface is in accordance with the PICMG* 2.16 R1.0 specification. Refer to the PICMG specification for more detail. There are no deviations from the specification for this interface. Table 24.

  • Page 82: Node Slot P3 Interface

    Specifications A.6.4 Node Slot P3 Interface Table 25 specifies the P3 interface for node slots. There are no deviations from the specification for this interface. Note, however, that rows 14 and 19 are defined as BP(I/O), but have special isolation and/or slew rate limitations.

  • Page 83: Standard Fabric Slot P3/P4/P5 Interfaces

    Specifications A.6.5 Standard Fabric Slot P3/P4/P5 Interfaces Table Table 27 Table 28 specify the interfaces for standard fabric slots. P3 and P5 are used for midplane Ethernet channels. P4 is used for rear panel I/O. There are no deviations from the specification for these interfaces except that each fabric slot has one Ethernet channel routed to a CMM.

  • Page 84: Standard Fabric Board P4 Pin Assignments

    Specifications Table 27. Standard Fabric Board P4 Pin Assignments Pin # BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O) BP(I/O)
  • Page 85 Specifications Table 28. Standard Fabric Board P5 Pin Assignments LP16_DB+ LP16_DB- LP16_DD+ LP16_DD- LP15_DA+ LP15_DA- LP15_DC+ LP15_DC- LP15_DB+ LP15_DB- LP15_DD+ LP15_DD- LP14_DA+ LP14_DA- LP14_DC+ LP14_DC- LP14_DB+ LP14_DB- LP14_DD+ LP14_DD- LP13_DA+ LP13_DA- LP13_DC+ LP13_DC- LP13_DB+ LP13_DB- LP13_DD+ LP13_DD- LP12_DA+ LP12_DA- LP12_DC+ LP12_DC- LP12_DB+ LP12_DB-...
  • Page 86 Specifications Table 29 lists the midplane Ethernet connections from the fabric slots to the CMM and node slots as implemented by the ZT 5085 midplane. Table 29. Midplane Ethernet Connections Ethernet Star ‘A’ Ethernet Star ‘B’ Switch ‘A’ Switch ‘B’ Connection Connection (Slot 2) Port...

  • Page 87: H.110 P4/P5 Interface

    Specifications A.6.6 H.110 P4/P5 Interface This section defines the P4/P5 interface for H.110 slots. Table 30 specifies the P4 interface for the H.110 slots. This is in accordance with the PICMG* 2.5 R1.0 specification. Refer to the PICMG specification for more detail. Table 30.

  • Page 88: P4/P5 Rear Panel I/O Interface

    Specifications Boards that do not implement H.110 and do not have a J4 connector may be installed in H.110 slots. In this case, the J5/P5 interface may be used for rear panel I/O. Note, however, that the H.110 P5 connector has pin staging and that the ‘Z’ GND pins are not populated in the midplane connector.

  • Page 89: Cmm Slot P1/P2/P3 Interfaces

    Specifications CMM Slot P1/P2/P3 Interfaces A.7.1 CMM Slot P1 Interface Table 32 specifies the P1 interface for CMM slots numbers. Table 32. P1 Connector CMM Pin Assignments Pin # PDEG0# PDEG2# PDEG4# PDEG6# PDEG1# PDEG3# IPMB_PWR PDEG5# PDEG7# PFAIL0# PFAIL2# PFAIL4# PFAIL6# PFAIL1#...

  • Page 90: Cmm Slot P2 Interface

    1. In the ZT 5085 midplane, N_SCL1 and N_SDA1 signals are not used because the CMMs are in slot 1. 2. The CompactPCI* specifications define the IPMB signals as bused. Intel systems that implement CMM slots route slot-specific IPMBs to the CMM(s) in a star topology. The IPMB in slot n is connected to the N_SCLn and N_SDAn signals on the CMM(s).
  • Page 91 3. BD_SEL# is routed as a slot-specific signal to the CMM(s). BD_SEL# in slot n is connected to N_BDSn# on the CMM(s). Intel systems that implement CMM slots treat this pin as a BD_SEL# in system slots as well as non-system slots.
  • Page 92 Specifications Technical Product Specification...

  • Page 93: Power Supplies/Hot Swap Circuitry

    NetStructure™ power supplies that Intel currently provides do not require a minimum start up load. Additionally, the current Intel NetStructure power supplies do not have any regulation load requirements except that the +12 V load must be at least 50% of the -12 V load. The fan trays used ZT 5085 assure that the minimum regulation load is met.
  • Page 94 Power Supplies/Hot Swap Circuitry Technical Product Specification...

  • Page 95: Data Sheet Reference

    NetStructure™ ZT 4901 Mezzanine Expansion Card Technical Product Specification ® ® • Intel NetStructure™ ZT 6303 Hot Swap AC Power Supply Product Brief or Intel NetStructure™ ZT 6313 Hot Swap DC Power Supply Product Brief ® • Intel NetStructure™ Embedded BIOS Software Manual •...
  • Page 96 Data Sheet Reference Technical Product Specification...

  • Page 97: Warranty Information

    If the product is found to be otherwise defective, Intel, at its option, will replace or repair the product at no charge except as set forth below, provided that you deliver the product along with a return material authorization (RMA) number (see below) either to the company from whom you purchased it or to Intel.

  • Page 98: For The Americas

    Return Material Authorization (RMA) credit requests e-mail address: requests.rma@intel.com Direct Return Authorization (DRA) repair requests e-mail address: uspss.repair@intel.com DRA on-line form: http://support.intel.com/support/motherboards/draform.htm Intel Business Link (IBL): http://www.intel.com/ibl Telephone No.: 1-800-INTEL4U or 480-554-4904 Office Hours: Monday - Friday 0700-1700 MST Winter / PST Summer D.1.3 For EMEA Return Material Authorization (RMA) e-mail address - emea.fs@intel.com...
  • Page 99 If the Customer Support Group verifies that the product is defective, they will have the Direct Return Authorization/Return Material Authorization Department issue you a DRA/RMA number to place on the outer package of the product. Intel cannot accept any product without a DRA/RMA number on the package. Limitation of Liability and Remedies...
  • Page 100 Warranty Information This page intentionally left blank. Technical Product Specification...

  • Page 101: Customer Support

    This appendix offers technical and sales assistance information for this product, and information on returning an Intel NetStructure product for service. Technical Support and Return for Service Assistance For all product returns and support issues, please contact your Intel product distributor or Intel Sales Representative for specific information. Sales Assistance ®...
  • Page 102 Customer Support This page intentionally left blank. Technical Product Specification...

  • Page 103: Agency Approvals

    Agency Approvals Agency Approvals ® Intel NetStructure™ platforms have been demonstrated to show compliance with mandatory U.S. and international electromagnetic compatibility standards with all chassis slots either filled with compliant devices, air-management boards, or covered by blank filler panels. In order to maintain this compliance, it is mandatory that all unused slots are filled with blank filler panels, air- management boards, or compliant devices.

  • Page 104: En 55024 Immunity

    This device may not cause harmful interference. This device must accept any interference received, including interference that may cause undesired operation. Caution: If you make any modification to the equipment not expressly approved by Intel, you could void your authority to operate the equipment. F.4.2 Industry Canada (Canada) Cet appareil numérique respecte les limites bruits radioélectriques applicables aux appareils...

  • Page 105: Product Safety Information

    When the battery is replaced, the same type or an equivalent type recommended by the manufacturer must be used. Used batteries must be disposed of according to the manufacturer’s instructions. Return the unit to Intel for battery service. Technical Product Specification...

  • Page 106: Ac And/Or Dc Power Safety Warning (Ac And/Or Dc Powered Units)

    Agency Approvals F.5.1 AC and/or DC Power Safety Warning (AC and/or DC Powered Units) The AC and/or DC power cord is your unit’s main AC and/or DC disconnecting device, and must be easily accessible at all times. Auxiliary AC and/or DC On/Off switches and/or circuit breaker switches are for power control functions only (NOT THE MAIN DISCONNECT).

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