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Technical Product Specification

Introduction

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).

Figure 7. Redundant Hosts Controlling Two CompactPCI* Bus Segments

Host Processor Board

Redundant Host Processor Board

Bridge Mezzanine Board

Summary of Contents for NetStructure ZT 5085

Page 1: ...Intel NetStructureTM ZT 5085 12U Redundant Host Packet Switched Platform Technical Product Specification October 2004 Order Number 273790 005 ...

Page 2: ...nsibility 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 Except as permitted by such license no part of this document may be reproduced stored in a retrieval system or transmitted in any form or by any means without the express written consent of Intel Corporation Contact your local Intel sales off...

Page 3: ...unding the System 24 2 3 3 Providing Power 25 2 3 4 Connecting I O Devices 27 2 4 Setup and Configuration 28 2 4 1 CMM Configuration 28 2 4 2 Slot Assignments 29 2 4 3 Setting V I O 29 2 4 4 Disabling the Power Standby Switch 31 3 Field Replaceable Units 33 3 1 Working with Chassis Management Modules 33 3 1 1 Installing the CMM 34 3 1 2 Removing the CMM 34 3 2 Working with Board Level Components 3...

Page 4: ...us LED 57 5 2 Intake Grill with Air Filter 58 5 2 1 Replacing the Air Filter 59 A Specifications 61 A 1 Physical and Mechanical Specification 61 A 2 Environmental Specifications 62 A 3 Electrical Specifications 63 A 3 1 Universal Midplane 64 A 3 2 Midplane Connectors and Devices 64 A 3 3 Logic Ground Isolation Capacitors 66 A 3 4 Sensors and Thresholds 67 A 4 MTBF Prediction 70 A 5 Connectors 70 A...

Page 5: ...da Canada 104 F 5 Product Safety Information 105 F 5 1 AC and or DC Power Safety Warning AC and or DC Powered Units 106 F 5 2 Rack Mount Enclosure Safety 106 Figures 1 Features Front 10 2 Features Rear 11 3 ZT 5085 Midplane Slot Assignments Front 12 4 Two CompactPCI Bus Segments 14 5 Two Independent CompactPCI Bus Segments 15 6 One Extended CompactPCI Bus Configuration 16 7 Redundant Hosts Control...

Page 6: ... Supplies 50 8 AC Input Specifications 53 9 DC Input Specifications 54 10 Delta Blower Motor Specifications 56 11 Fan Tray Health Status LED States 58 12 Chassis Dimensions 61 13 Chassis Environmental Specifications 63 14 ZT 5085 Connector Assignments 64 15 Sensor Default Thresholds 67 16 MTBF Prediction on ZT 5085 DC 70 17 Slot Arrangement 73 18 ZT 5085 Slot Interfaces 74 19 Slot P1 Pin Assignmen...

Page 7: ...005 Clarified slot and midplane arrangement updated product return shipping information May 2004 004 Changed value on slot interface table July 2003 003 Name changes filler panel info and synch up with documentation July 2003 002 Updated Customer Support and Warranty Information September 2002 001 Initial Release of this document ...

Page 8: ...8 Technical Product Specification ...

Page 9: ...ystem components provide built in redundancy to simplify replacement and minimize service time Redundant chassis management modules enable customers to manage multiple processor boards and conduct chassis diagnostics remotely for enhanced system reliability Two 6U slots are reserved for PICMG 2 16 standard fabric boards Ethernet switches The ZT 5085 platform routes Ethernet signals across the midp...

Page 10: ...dundant Chassis Management Modules optional Unique star topology for management buses increases reliability and security Highly Scalable Flexibility to scale processors I O boards power and cooling Standards and Compatibility Interoperable with processor boards peripherals switches and sub components from multiple manufacturers 6U PICMG 2 16 compliant midplane Designed for NEBS Level 3 and FCC Cla...

Page 11: ...18 6U node slots and two 3U management slots Two redundant IPMI based Chassis Management Modules Eight N N Redundant load sharing 250 W AC or 350 W DC 47 pin connector modular power supplies Three hot swappable fan trays with three blowers each nine blowers total Card cage supports standard CompactPCI keying 1 3 1 Midplane Slot Assignments The ZT 5085 midplane features 21 6U slots Figure 2 Feature...

Page 12: ...ve H 110 compliant telephony bus All slots support IEEE 1101 11 style 80 mm deep transition cards in the rear panel I O section directly behind the midplane Each CompactPCI bus each fabric slot and the pair of PCI less slots can be independantly configured for 3 3 V or 5 V V I O operation see Section 2 4 3 Setting V I O on page 29 1 4 Configuration Options The ZT 5085 can accommodate multiple conf...

Page 13: ...t are interleaved to support Redundant Host mode See Section 1 4 3 Redundant Host on page 16 The two segments can be used independently by installing a system slot board in one multi purpose slot per segment Peripheral boards may then be used in the additional multi purpose slots Each segment also includes six peripheral slots Segment 1 Slots 3 8 Segment 2 Slots 13 18 These 12 peripheral slots sup...

Page 14: ...16 17 1A 1B H 110 Bus Peripheral Slots Peripheral Slots CompactPCI Segment 2 CompactPCI Segment 1 CompactPCI Segment 2 Multi Purpose Slots CompactPCI Segment 1 Multi Purpose Slots CompactPCI CompactPCI Com Compac pac PC P Segment 2 Segment 2 e e me e t t CompactPCI CompactPCI Com Compac pac PC P Segment 1 Segment 1 e e me e t ...

Page 15: ...ystem master can control 14 peripheral slots The CompactPCI segments can be bridged together with a bridge mezzanine board mated to a system master processor board for example ZT 4901 and ZT 5524 This two board complex can be installed in slots 9 and 10 or slots 11 and 12 to bridge CompactPCI bus segments 1 and 2 Figure 5 Two Independent CompactPCI Bus Segments 2 21 3 4 5 6 7 8 13 14 18 19 20 15 1...

Page 16: ...he failed board to be replaced without interruption of service 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 ZT 4901 Technical Product Specification Figure 6 ...

Page 17: ...ion that supports 18 independent servers communicating over the PICMG 2 16 Ethernet midplane slots 3 20 Figure 7 Redundant Hosts Controlling Two CompactPCI Bus Segments 2 21 3 4 5 6 7 8 13 14 18 19 20 15 16 17 1A 1B Host Processor Board Redundant Host Processor Board Bridge Mezzanine Board Bridge Mezzanine Board ...

Page 18: ...terfaces 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 The ZT 5085 supports two redundant ZT 7102s that operate in active hot standby modes Two redundant PICMG 2 16 switches must be ...

Page 19: ...er subsystem supports N N redundant power supplies and receives input power from redundant DCor ACinputs This is critical in Central Office locations where two power plants deliver redundant DC input into High Availability devices The two power subsystems in the ZT 5085 maintain isolation of these inputs no diode ORing to ensure that failure of one power input does not affect the second power inpu...

Page 20: ...20 Technical Product Specification Introduction ...

Page 21: ... original packing material or with boards or RTMs in the subrack may void the warranty in particular ensure that the shelf is always shipped on the pallet that came with the unit Caution This system contains board level components that must be protected from static discharge and physical shock Wear a wrist strap grounded through one of the system s ESD Ground jacks when handling system components ...

Page 22: ...rwise unpopulated rear panel slots for correct operation Four AC Power cords for AC systems Figure 9 ZT 5085 Example System front B2129 01 Fan Trays 3 places Intake Grill with Filter Peripheral Boards or Air Management Boards Slots 3 8 18 20 Ethernet Switch Slots 2 and 21 Chassis Management Module Slots 1A and 1B 250W AC or DC Power Supplies 8 places Redundant Hosts Peripheral Boards Air Managemen...

Page 23: ...re the blank filler panels and air management blades include EMI gaskets and are compatible with CompactPCI industry standard See the Intel NetStructureTM ZT 5085 88 89 90 91 Chassis Compatibility Report for a list of compatible blank filler panels and air management blades Warning Failure to cover open slots could cause overheating of power supplies boards or other components and could damage the...

Page 24: ...ed by the system s cooling fans Be sure to install the system in an environment that does not compromise this recommended minimum airflow requirement The following topics discuss installing the ZT 5085 step by step 1 Disconnect all power sources and external connections cables prior to installing or removing the system from a rack 2 Select a position in the rack that does not interfere with other ...

Page 25: ...se a grounded outlet to supply power to AC systems Always use a power cable with a grounded plug Warning When the system is plugged in high voltages are present on the midplane Do not reach into the enclosure 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 En...

Page 26: ...cted from the power source s to remove all power 2 3 3 2 Connecting DC Power P2 Option 1 Ensure that the power standby switch is in the standby Ensure that the power standby switch is in the standby position See Figure 10 ZT 5085 Example System Rear on page 23 for switch location Ensure that the state of the power feed is known and correct prior to connecting power It is recommended that the feed ...

Page 27: ... both the A and B inputs See Figure 12 ZT 5085 DC Power Input Panel P2 on page 27 for terminal assignments 8 Replace the protective cover on the terminal block 9 Complete the connection to the DC power source 10 Once power is connected the power standby switch may be used to turn on the system Warning The power standby switch does not turn off power to the system The system must be disconnected fr...

Page 28: ... Switches must be installed in slots 2 and 21 2 The switches must provide the HEALTHY output signal 3 The switches must support port 19 LP19 Port 19 of switch slot 2 is routed on the backplane to CMM slot 1A Port 19 of switch slot 21 is routed on the backplane to CMM slot 1B 4 The switches must have a network connection between them either via the inter fabric port LPf or via external connections ...

Page 29: ...ification PICMG 2 0 R3 0 for additional information on slot addressing and signal assignment See Appendix C Data Sheet Reference for document ordering information Note Removing all CMM s from a running system may cause all boards to reset or shut down 2 4 3 Setting V I O The ZT 5085 midplane provides six independent V I O planes one for each of the four CompactPCI segments and one for each of the ...

Page 30: ... I O Related Slot Capabilities V I O 66 MHz Operation Universal Voltage Boards 3 3 V Boards 5 V Boards 3 3 V No Yes Yes No 5 V No Yes No Yes Table 2 V I O Configuration Options V I O Plane Slot s V I O Setting V I O Shunt P1 Key Color Fabric A 2 3 3 V V I O A 3 3 V Position Cadmium Yellow 5 V Default V I O A 5 V Position Brilliant Blue CompactPCI Segment 1 3 9 and 11 3 3 V V I O B 3 3 V Position C...

Page 31: ... 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 Figure 15 illustrates the location of the J7 jumpers Figure 14 ZT 5085 V I O Shunt Locations 2 21 3 4 5 6 7 8 10 9 11 12 13 14 18 19 20 15 16 17 Midplane Front 3 3V Shunt 5V Shunt 1A 1B ...

Page 32: ...r tray This can result in an improper cooling scenario Table 3 lists the configuration choices for the J7 jumpers Figure 15 Power Standby Switch Disable Jumper Locations J7 Power Standby Switch Bypass Jumper Front Table 3 Power Tray J7 Jumper Configurations Power Tray 1 J7 Jumper Power Tray 2 J7 Jumper Power Standby Switch Installed Installed Enabled Removed Removed Disabled Installed Removed Inva...

Page 33: ...1 Working with Chassis Management Modules The Chassis Management Modules CMMs affect power to slots 2 21 in accordance with the PICMG 2 1 specification PICMG 2 1 defines the power control BD_SEL signals as pulled up on general purpose boards This means that the BD_SEL signals must be asserted grounded for the boards to power up CMMs operating in slot 1 control BD_SEL assertion to slots 2 21 Jumper...

Page 34: ... LED to change from red to green or blinking green 8 Screw in the board retention screws to anchor the board in the chassis This screw is located at the opposite end of the faceplate from the ejector handle The screws are located at the top and the bottom of the board By default the CMM sets its IP addresses statically The IP addresses should be reconfigured for your network the first time you log...

Page 35: ...dant host processors controlling with bridged CompactPCI segments system master processor boards controlling the midplane s two CompactPCI bus segments One extended CompactPCI bus Boards installed at the front of the ZT 5085 may be paired with Rear Panel I O RPIO boards accessible from the rear of the system see Figure 10 ZT 5085 Example System Rear on page 23 Caution Some third party CompactPCI b...

Page 36: ...g 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 Caution Processor boards may contain a socketed lithium battery This battery is not a field replaceable unit There is a danger of explosion if the battery is incorrectly replaced or handled Do not disassemble or recharge the battery Do not dispose of t...

Page 37: ...at the board is about to be removed and wait for the hot swap LED to light 3 Unscrew any retention screws that fasten the board to the enclosure If the board occupies multiple slots unscrew the retention screws in each occupied slot 4 Open the ejectors fully rotating the handles outward until the board disengages from the midplane refer to Figure 16 on page 33 5 Disconnect connections at the facep...

Page 38: ...e injector ejector mechanisms engage the retention bars 7 Simultaneously push in the board and rotate the injector ejector mechanisms to their closed positions rotate inward to seat the midplane connectors 8 Make the desired connections at the board s faceplate 9 Enable power or install the corresponding front panel board 3 2 1 4 Removing a Rear Panel I O Board The following steps cover the mechan...

Page 39: ...ER SUPPLY IN A ZT 5085 CONFIGURED FOR AC INPUT Warning Only trained personnel should perform power supply maintenance When the system is plugged in high voltages are present on the midplane Do not reach into the enclosure Warning All power supplies must be of identical make and model If changing make or model power must be removed from the chassis and all supplies must be replaced Warning Air mana...

Page 40: ...If an air management board populates the slot it must be removed Unscrew any retention screws that fasten the board to the enclosure and slide the air management board evenly out of the enclosure 4 Prepare the power supply by opening the injector ejector mechanisms refer to Figure 18 on page 41 5 Align the rails on the power supply with the guides in the slot It may be helpful to look into the enc...

Page 41: ...41 Technical Product Specification Field Replaceable Units Figure 18 Injector Ejector Operation Power Supplies Open Ejected Spring Loaded Latch Closed Inserted ...

Page 42: ... out of the enclosure 6 Install a replacement power supply to maintain the enclosure s shielding and cooling performance Refer to Section 3 3 1 Installing a Power Supply on page 40 7 Replace the intake grill 3 4 Working with Fan Trays Nine blowers housed in three removable fan trays occupy the top of the enclosure Each fan tray is secured by a captive screw and plugs into a blind mating receptacle...

Page 43: ...install a fan tray 3 Select an empty fan bay at the top of the enclosure 4 Align the fan tray with the guides in the bay Orient the fan tray with the handle at the bottom 5 Slide the fan tray into the fan bay 6 Press the fan tray in firmly to seat its connector 7 Turn the latch clockwise to lock the fan tray into place Do not over tighten the latch Figure 19 Fan Tray Installation Removal Screw Lat...

Page 44: ...l with Air Filter on page 58 4 Remove Fan Trays see Section 3 4 1 Removing a Fan Tray on page 42 5 Remove two of the upper center card guides by pulling firmly down on the ends of the each guide This gives you a place to hold the top of the cage and makes it easier to pull the cage from the system It also makes the top of the cage obvious when reassembling the system 6 Remove the four midplane ass...

Page 45: ...eplace the four midplane assembly retention screws on the front of the enclosure see Figure 20 Midplane Assembly Retention Screw Locations on page 44 5 Replace the two upper center card guides 6 Replace the Fan Trays see Installing a Fan Tray on page 43 7 Replace the filter see Section 5 2 Intake Grill with Air Filter on page 58 8 Replace all boards in the front and rear slots see Installing the C...

Page 46: ...46 Technical Product Specification Field Replaceable Units ...

Page 47: ...ailure to properly design a chassis power input subsystem could result in voltage transference system damage or safety issues 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 The system is designed to minim...

Page 48: ...igned to continue operation with any single fault Examples of faults include Power feed failure Power supply failure If a single power feed fails the system continues to receive power from the four power supplies powered from the healthy feed If a single power supply fails the system continues to receive adequate power from the healthy power supplies Table 5 ZT 5085 Power Fault Tolerance Matrix DC...

Page 49: ...ered regardless of the setting of the power standby switch Refer to Section 4 7 1 Power Standby Switch Disable Jumper on page 53 for details on how to disable the power standby switch 4 4 Power Budgeting To properly budget for power consumption within the ZT 5085 system many factors need to be considered These factors include Dual power domains Redundant power supplies Redundant power feeds Power ...

Page 50: ...pplies can provide the following currents for each voltage level As new power supplies are introduced with higher power outputs more redundant power and current can be delivered to the chassis 4 5 1 CMMs and Fan Trays The CMMs and fan trays draw power from the power supplies Under normal conditions each domain provides approximately 50 percent of the power for these shared components Power budgets...

Page 51: ...abeled A1 B1 A2 and B2 The A1 and B1 connections provide redundant power feeds to power tray 1 A1 to PS1 and PS3 B1 to PS2 and PS4 For full redundancy these connections must Have independent circuit breakers Come from different sources or at least different phases The A2 and B2 connections provide redundant power feeds to power tray 2 A2 to PS5 and PS7 B2 to PS6 and PS8 For full redundancy these c...

Page 52: ...reakers should be rated based on maximum load at minimum voltage with one failed feed The circuit breakers shall not be rated for more than 60 A under any circumstance Each DC power input includes an EMI filter to reduce line conducted emissions 4 7 Power Trays Two power trays occupy the bottom of the ZT 5085 platform Each tray has its own backplane that provides slots for four power supplies The ...

Page 53: ...h the PICMG 2 11 Power Interface Specification High current density allows this unit to deliver up to 40A on both the 5 V and 3 3 V outputs at 50 ºC Remote sense and active current share on the 5 V 3 3 V and 12 V outputs along with OR ing FETs allow these units to be used in redundant hot swap applications 4 8 2 DC Input Power Supplies DC systems are powered by the Intel NetStructure ZT 6313 Hot S...

Page 54: ...n 2 4 3 Setting V I O on page 29 for information on configuring the different V I O levels Table 9 DC Input Specifications Parameter Conditions Description MIN NOM MAX Units Input Voltage DC Continuous input range 36 75 VDC Hold up Time From 48 VDC Input 4 ms Input Current At full rated load 36 VDC 48VDC 7 6 5 4 A Input Protection Non user serviceable internally located input line fuse Inrush Surg...

Page 55: ... Figure 25 illustrates the airflow through the platform 5 1 Fan Trays Each of the ZT 5085 s three fan trays is a modular field replaceable unit Each tray contains three blowers a control board and a status LED These features are discussed in the following sections For information about working with fan trays refer to Section 3 4 Working with Fan Trays on page 42 Figure 25 Airflow ...

Page 56: ...diately The second blower is enabled about 300ms after the first and the third blower is enabled about 300ms after the second Each blower is independently protected using a self resetting PTC The control board also includes logic to set the LED to the unhealthy state if any of the blowers drop below approximately 1000 RPM or if onboard voltage is invalid The chassis management module can also forc...

Page 57: ...e 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 Reference for document ordering information Note Not all fan trays can be set to 0 percent By default jumper J6 must be changed to support a fan speed of 0 pe...

Page 58: ...e turned on CMM Control parameters may be set from CMM The fan tray 5 V drops below the unhealthy limit The fan tray 12 V drops below 10 647 V Any of the 3 fans in the tray drops below 2289 RPM 5 2 Intake Grill with Air Filter An air intake grill with a replaceable air filter is attached to the bottom front of the ZT 5085 platform The grill must be removed to replace the filter The grill must also...

Page 59: ...l 2 Pull the grill away from the enclosure 3 The air filter is clipped into the back of the intake grill Unclip the filter retainer to release the filter element 4 Fit a new filter element into the back of the grill and clip the filter retainer into place 5 Replace the intake grill by first inserting the tabs at the bottom into the enclosure Then align the screws at the top of the grill with the c...

Page 60: ...60 Technical Product Specification Cooling Subsystem ...

Page 61: ...inouts A 1 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 Figure 28 illustrates the dimensions for rack mounting options Table 12 Chassis Dimensions Parameter Description Height 12U 21 0 533mm Width 17 2 436 mm without rack mount flanges Rack mount flanges allow mounting...

Page 62: ...ion with a corrosion resistant finish Due to the modular construction of the system components could be added that change the system s environmental constraints Board level components and power supply modules have their own operating temperature ratings Refer to component specific product manuals for operational details that may affect system performance Figure 28 Rack Mount B2050 01 17 00 16 50 4...

Page 63: ...Storage Temperature 40 C to 70 C Non Condensing Relative Humidity 90 non condensing relative humidity at 40 C Shock Unpackaged 2 inches at 81 lbs standard configuration Shock Packaged 9 inches at 106 lbs standard configuration Vibration Unpackaged 5 Hz to 500 Hz at 2 20g RMS random Vibration Packaged 5 Hz to 500 Hz at 1 09g RMS random ESD 0 15kV air discharge 0 8kV contact discharge Acoustics 55 1...

Page 64: ...s and two CompactPCI buses Refer to the Figure 29 ZT 5085 Backplane Connector Locations Front on page 65 and Figure 30 ZT 5085 Backplane Connector Locations Rear on page 66 for connector locations Table 14 ZT 5085 Connector Assignments Connector Function P1 P5 Slots 2 21 PSB Fabric Interface front P1 P5 Slots 9 10 11 12 Redundant System Master Processor Board Interface front P1 P5 Slots 3 8 13 18 ...

Page 65: ...Specifications Figure 29 ZT 5085 Backplane Connector Locations Front 2 21 3 4 5 6 7 8 10 9 11 12 13 14 18 19 20 15 16 17 Midplane Front U3 U1 U2 U4 U5 U6 U7 U8 Temperature Sensors Chassis FRU Info Device 1 Chassis FRU Info Device 0 1A 1B ...

Page 66: ...h grounds or use shunts to couple logic and earth grounds 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 Figure 30 ZT 5085 Backplane Connector Locations Rear 2 21 3 4 5 6 7 8 13 14 18 19 20 15 17 16 U11 U10 U9 Midplane Rear Temperature Sensor Temperature S...

Page 67: ...lar location If a sensor is threshold based issue the command cmmget 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 Table 15 lists the default thresholds for sensors in the ...

Page 68: ... 472 Lower Non Critical 3 200 Lower Critical 3 168 BP 5 V Upper Critical 5 304 Upper Non Critical 5 252 Lower Non Critical 4 862 Lower Critical 4 810 BP 12 V Upper Critical 12 726 Upper Non Critical 12 600 Lower Non Critical 11 403 Lower Critical 11 277 BP 12 V Upper Critical 12 720 Upper Non Critical 12 600 Lower Non Critical 11 400 Lower Critical 11 280 Fan Tray 5 V all 3 fan trays Upper Critica...

Page 69: ...2310 000 Lower Critical 2163 000 FANTK1 4 7 Upper Critical N S Upper Non Critical N S Nominal Lower Non Critical 1500 Lower Critical 1425 FANTK2 3 5 6 8 9 Upper Critical N S Upper Non Critical N S Nominal Lower Non Critical 3150 Lower Critical 3000 Table 15 Sensor Default Thresholds Sheet 3 of 3 Sensor Threshold Value Default ...

Page 70: ...nvironmental Assumptions 1 Failure rates are based on a 25 C inlet chassis temperature with a 15 C increase in internal chassis temperature 2 Applied electrical component stress levels are 50 Voltage Current and or Power 3 Power Supply is at a 50 load 4 Ground Fixed Controlled environment with an environmental adjustment factor equal to 1 0 NOTES General Assumptions Notes 1 Component failure rates...

Page 71: ... A1 J2 B1 J3 A2 J4 B2 J1 A1 J2 B1 J3 A2 J4 B2 P1 P2 P3 P4 P5 P3 P2 P1 P3 P2 P1 Peripheral Slots Peripheral Slots Switch Slot Switch Slot CMM Slots PCI Less Node Slots CompactPCI Segment 2 CompactPCI Segment 1 CompactPCI Segment 2 CompactPCI Segment 1 Multi Purpose Slots Multi Purpose Slots 2 21 3 4 5 6 7 8 13 14 18 19 20 15 17 16 U11 U10 U9 10 9 11 12 1A 1B J6 J6 J5 J5 P o w e r p l a n e 2 P o w ...

Page 72: ...ded CompactPCI Bus Configuration on page 16 by installing a two slot wide system slot bridge mezzanine board set Intel s ZT 5524A SBC and ZT 4901A I O Mezzanine card in slots 9 and 10 10 and 11 or 11 and 12 Again peripheral boards may be used in the additional multi purpose slots To operate with redundant host processor boards install a redundant host bridge mezzanine board set Intel s ZT 5524A SB...

Page 73: ...9 11 12 13 14 18 19 20 15 16 17 1A 1B H 110 Bus CompactPCI CompactPCI Com Compac pac PC P Segment 2 Segment 2 e e me e t t CompactPCI CompactPCI Com Compac pac PC P Segment 1 Segment 1 e e me e t Peripheral Slots Peripheral Slots Switch Slot Switch Slot CMM Slots PCI Less Node Slots CompactPCI Segment 2 CompactPCI Segment 1 CompactPCI Segment 2 CompactPCI Segment 1 PICMG 2 16 Node Slots Ethernet M...

Page 74: ... AD27 Peripheral Node H 110 6 1 AD28 Peripheral Node H 110 7 1 AD29 Peripheral Node H 110 8 1 AD30 Peripheral Node H 110 9 1 AD202 Multi Purpose Node RPIO 10 2 AD202 Multi Purpose Node RPIO 11 1 AD242 Multi Purpose Node RPIO 12 2 AD242 Multi Purpose Node RPIO 13 2 AD30 Peripheral Node H 110 14 2 AD29 Peripheral Node H 110 15 2 AD28 Peripheral Node H 110 16 2 AD27 Peripheral Node H 110 17 2 AD26 Pe...

Page 75: ... 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 This signal 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 Third party system slot boards may treat this pin as GND or may not connect to this pin 2 This pin is defined as GND in PICMG 2 0 R3 0 PICMG 2 16 R1...

Page 76: ...GND GND IHB_SDA8 IHB_SCL8 IHB_SCL8RS S_XIN7 GND 18 GND BRSVP2A18 BRSVP2B18 BRSVP2C18 GND BRSVP2E18 GND 17 GND BRSVP2A17 GND PRST REQ6 GNT6 GND 16 GND BRSVP2A16 BRSVP2B16 DEG GND BRSVP2E16 GND 15 GND BRSVP2A15 GND FAL REQ5 GNT5 GND 14 GND AD 35 AD 34 AD 33 GND AD 32 GND 13 GND AD 38 GND V I O AD 37 AD 36 GND 12 GND AD 42 AD 41 AD 40 GND AD 39 GND 11 GND AD 45 GND V I O AD 44 AD 43 GND 10 GND AD 49 ...

Page 77: ... R3 0 specification defines this pin as ground in system slots and not connected in peripheral slots Intel s RSS solution specifies that the midplane cross connect this pin with the ALT_SYSEN pin in the paired multi purpose slot and that the midplane also provide a pull down resistor to ground 6 This pin is defined as reserved by PICMG 2 0 R3 0 Intel s RSS solution redefines this pin as RSS_XOUT T...

Page 78: ... 1 GND 17 GND 3 3 V IPMB_SCL IPMB_SDA GND PERR GND 16 GND DEVSEL GND V I O STOP LOCK GND 15 GND 3 3 V FRAME IRDY BD_SEL TRDY GND 14 GND KEY KEY KEY KEY KEY GND 13 GND KEY KEY KEY KEY KEY GND 12 GND KEY KEY KEY KEY KEY GND 11 GND AD 18 AD 17 AD 16 GND C BE 2 GND 10 GND AD 21 GND 3 3 V AD 20 AD 19 GND 9 GND C BE 3 IDSEL AD 23 GND AD 22 GND 8 GND AD 26 GND V I O AD 25 AD 24 GND 7 GND AD 30 AD 29 AD 2...

Page 79: ...e Table 22 CompactPCI Peripheral Slot P2 Pin Assignments Pin Z A B C D E F 22 GND GA4 GA3 GA2 GA1 GA0 GND 21 GND NC GND NC NC NC GND 20 GND NC NC NC GND NC GND 19 GND NC GND NC NC NC GND 18 GND BRSVP2A18 BRSVP2B18 BRSVP2C18 GND BRSVP2E18 GND 17 GND BRSVP2A17 GND NC NC NC GND 16 GND BRSVP2A16 BRSVP2B16 NC GND BRSVP2E16 GND 15 GND BRSVP2A15 GND NC NC NC GND 14 GND AD 35 AD 34 AD 33 GND AD 32 GND 13 ...

Page 80: ... 3 3 V PCI_CLK5 OPEN GND 5 GND OPEN OPEN PCI_RST 5 GND OPEN GND 4 GND IPMB_PWR HEALTHY 6 V I O OPEN OPEN GND 3 GND OPEN OPEN OPEN 5 V OPEN GND 2 GND OPEN 5 V OPEN OPEN OPEN GND 1 GND 5 V 12 V OPEN 12 V 5 V GND NOTES 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 c...

Page 81: ...pen SMB_SDA1 SMB_SCL 1 SMB_ALERT 1 GND 18 GND Open Open Open Open Open GND 17 GND Open Open Open Open Open GND 16 GND Open Open Open Open Open GND 15 GND Open Open Open Open Open GND 14 GND Open Open Open Open Open GND 13 GND Open Open Open Open Open GND 12 GND Open Open Open Open Open GND 11 GND Open Open Open Open Open GND 10 GND Open Open Open Open Open GND 9 GND Open Open Open Open Open GND 8 ...

Page 82: ... O BP I O BP I O BP I O BP I O GND 13 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 12 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 11 2 BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 2 10 2 BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 2 9 2 BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 2 8 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 7 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 B...

Page 83: ...A GND LPf_DC LPf_DC GND 17 GND LPf_DB LPf_DB GND LPf_DD LPf_DD GND 16 GND LP8_DA LP8_DA GND LP8_DC LP8_DC GND 15 GND LP8_DB LP8_DB GND LP8_DD LP8_DD GND 14 GND LP7_DA LP7_DA GND LP7_DC LP7_DC GND 13 GND LP7_DB LP7_DB GND LP7_DD LP7_DD GND 12 GND LP6_DA LP6_DA GND LP6_DC LP6_DC GND 11 GND LP6_DB LP6_DB GND LP6_DD LP6_DD GND 10 GND LP5_DA LP5_DA GND LP5_DC LP5_DC GND 9 GND LP5_DB LP5_DB GND LP5_DD L...

Page 84: ...BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 9 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 8 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 7 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 6 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 5 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 4 GND BP I O 1 BP I O 1 BP I O 1 BP I O 1 BP I O 1 GND 3 GND BP I O 1 BP I O...

Page 85: ...P13_DA LP13_DA GND LP13_DC LP13_DC GND 9 GND LP13_DB LP13_DB GND LP13_DD LP13_DD GND 8 GND LP12_DA LP12_DA GND LP12_DC LP12_DC GND 7 GND LP12_DB LP12_DB GND LP12_DD LP12_DD GND 6 GND LP11_DA LP11_DA GND LP11_DC LP11_DC GND 5 GND LP11_DB LP11_DB GND LP11_DD LP11_DD GND 4 GND LP10_DA LP10_DA GND LP10_DC LP10_DC GND 3 GND LP10_DB LP10_DB GND LP10_DD LP10_DD GND 2 GND LP9_DA LP9_DA GND LP9_DC LP9_DC G...

Page 86: ... Slot 5 LPa LP3 Slot 5 LPb LP4 Slot 6 LPa LP4 Slot 6 LPb LP5 Slot 7 LPa LP5 Slot 7 LPb LP6 Slot 8 LPa LP6 Slot 8 LPb LP7 Slot 9 LPa LP7 Slot 9 LPb LP8 Slot 10 LPa LP8 Slot 10 LPb LP9 Slot 11 LPa LP9 Slot 11 LPb LP10 Slot 12 LPa LP10 Slot 12 LPb LP11 Slot 13 LPa LP11 Slot 13 LPb LP12 Slot 14 LPa LP12 Slot 14 LPb LP13 Slot 15 LPa LP13 Slot 15 LPb LP14 Slot 16 LPa LP14 Slot 16 LPb LP15 Slot 17 LPa LP...

Page 87: ...in 18 VRG 2 No Pin No Pin No Pin VRG Rtn 2 No Pin 17 No Pin No Pin No Pin No Pin No Pin No Pin 16 No Pin No Pin No Pin No Pin No Pin No Pin 15 Vbat 2 No Pin No Pin No Pin Vbat Rtn 2 No Pin 14 KEY 13 12 11 CT_D29 CT_D30 CT_D31 V I O CT_FRAME_A GND 10 CT_D27 3 3V CT_D28 5V CT_FRAME_B GND 9 CT_D24 CT_D25 CT_D26 GND FR_COMP GND 8 CT_D21 CT_D22 CT_D23 5V CT_C8_A GND 7 CT_D19 5V CT_D20 GND CT_C8_B GND 6...

Page 88: ...ble for any board specific rear panel I O The midplane does not connect to these signals except to ground the Z and F columns of pins Table 31 H 110 P5 Pin Assignments Pin A B C D E F 22 T1 T9 T17 T25 IN C No Pin 21 R1 R9 R17 R25 IN C No Pin 20 T2 T10 T18 T26 IN C No Pin 19 R2 R10 R18 R26 IN C No Pin 18 T3 T11 T19 T27 IN C No Pin 17 R3 R11 R19 R27 IN C No Pin 16 T4 T12 T20 T28 IN C No Pin 15 R4 R1...

Page 89: ...65 FANTK146 GND 4 GND RPCR RPMAR RPMIR FANTK75 FANTK156 GND 3 GND BP_5V BP_N12V BP_12V BP_3 3V V I O 7 GND 2 GND SwTx SwTx GND RpTx RpTx GND 1 GND SwRx SwRx GND RpRx RpRx GND NOTES 1 The midplane routes the PINH 0 3 PDEG 0 3 PFAIL 0 3 PS_SCL0 and PS_SDA0 signals to the first power tray 2 The midplane routes the PINH 4 7 PDEG 4 7 PFAIL 4 7 PS_SCL1 and PS_SDA1 signals to the second power tray PDEG 4...

Page 90: ... NEG_I GND GND 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 Table 35 P3 Connector CMM Pin Assignments Sheet 1...

Page 91: ...THY in slot n is connected to N_HLYn on the CMM s 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 Third party system slot boards may treat the pin as GND or may not connect to the pin Table 35 P3 Connector CMM Pin Assignments S...

Page 92: ...92 Technical Product Specification Specifications ...

Page 93: ... regulate properly when fully loaded even if the primary output is not fully loaded This is typically specified as 10 of the maximum output capability of the primary output In a pure hot swap system the power supply essentially sees no load even after the input power to the system is applied because the hot swap circuitry remains disabled until the voltage levels reach the appropriate value The po...

Page 94: ...94 Technical Product Specification Power Supplies Hot Swap Circuitry ...

Page 95: ...ith Intel Pentium III Processor Hardware Manual Intel NetStructure ZT 5524 System Master Processor Board Technical Product Specification The appropriate rear panel I O board hardware manual e g ZT 4807 Intel NetStructure ZT 4901 I O Mezzanine Expansion Card Manual Intel NetStructure ZT 8101 10 100 Ethernet Switch User Manual Intel NetStructure ZT 8102 10 100 Ethernet Switch Technical Product Speci...

Page 96: ...96 Technical Product Specification Data Sheet Reference ...

Page 97: ...er testing 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 If you ship the product you must assume the risk of damage or loss in transit You ...

Page 98: ...thorization DRA for repair requests e mail address emea fs intel com Intel Business Link IBL http www intel com ibl Telephone No 00 44 1793 403063 Fax No 00 44 1793 403109 Office Hours Monday Friday 0900 1700 UK time D 1 4 For APAC RMA DRA requests email address apac rma front end intel com Telephone No 604 859 3111 or 604 859 3325 Fax No 604 859 3324 Office Hours Monday Friday 0800 1700 Malaysia ...

Page 99: ...THIS PRODUCT WHETHER ARISING OUT OF CONTRACT NEGLIGENCE TORT OR UNDER ANY WARRANTY OR FOR INFRINGEMENT OF ANY OTHER PARTY S INTELLECTUAL PROPERTY RIGHTS IRRESPECTIVE OF WHETHER INTEL HAS ADVANCE NOTICE OF THE POSSIBILITY OF ANY SUCH DAMAGES INCLUDING BUT NOT LIMITED TO LOSS OF USE BUSINESS INTERRUPTIONS AND LOSS OF PROFITS NOTWITHSTANDING THE FOREGOING INTEL S TOTAL LIABILITY FOR ALL CLAIMS UNDER ...

Page 100: ...100 Technical Product Specification Warranty Information This page intentionally left blank ...

Page 101: ...nd support issues please contact your Intel product distributor or Intel Sales Representative for specific information E 2 Sales Assistance If you have a sales question please contact your local Intel NetStructureTM Sales Representative or the Regional Sales Office for your area Address telephone and FAX numbers and additional information is available at Intel s website located at http www intel c...

Page 102: ...102 Technical Product Specification Customer Support This page intentionally left blank ...

Page 103: ...for details F 1 CE Certification The ZT 5085 meets the intent of Directive 89 336 EEC for Electromagnetic Compatibility and Low Voltage Directive 73 23 EEC for Product Safety The ZT 5085has been designed for NEBS ETSI compliance F 2 Safety UL cUL 60950 Safety for Information Technology Equipment UL File E179737 EN IEC 60950 Safety for Information Technology Equipment CB Report Scheme CB certificat...

Page 104: ...this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense Note This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions This device may not cause harmful interference This device must accept any interference received including interference that ma...

Page 105: ...installed in compatible chassis Air Management Blades AMBs must be installed over unused front chassis slots and Filler panels must be installed over unused rear chassis slots so that airflow requirements are met Please refer to the product data sheet for airflow requirements if you are installing components in custom chassis Caution Microprocessor Heatsinks May Become Hot During Normal Operation ...

Page 106: ...m a telephone or Ethernet system plug your enclosure into the power source before making these connects Disconnect these connections before unplugging your enclosure from the power source Warning Verify Power Cord and Outlet Compatibility Check to ensure you are using the appropriate power cords for your power outlet configurations Visit the following website for additional information http kropla...

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