®
Intel NetStructure MPCMM0002
Chassis Management Module
Hardware Technical Product Specification
July 2007
Order Number: 309247-004US
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Contents—MPCMM0002 CMM
Contents
1.0 Document Organization.............................................................................................8
Acronyms and Terms......................................................................................... 10
2.0 Introduction............................................................................................................ 11
3.0 Getting Started........................................................................................................ 13
3.1 Installing the CMM............................................................................................. 13
4.0 Module Components ................................................................................................ 15
Serial Port UARTs.............................................................................................. 19
FPGA............................................................................................................... 20
Redundancy and Hot Swap CPLD......................................................................... 20
Real-Time Clock................................................................................................ 20
4.10 ADM1026 Controller .......................................................................................... 21
4.11 Hot Swap Controller........................................................................................... 21
4.12 Ride-Through Support........................................................................................ 21
4.13 IPMB Isolation Logic .......................................................................................... 21
5.0 Mechanical Information........................................................................................... 24
6.0 Backplane Considerations........................................................................................ 28
7.0 Rear Connections .................................................................................................... 32
CMM Redundancy.............................................................................................. 41
8.0 Chassis Data Modules (CDMs).................................................................................. 43
9.0 Front Panel.............................................................................................................. 45
Serial Port Pinouts............................................................................................. 45
Ethernet Port Pinouts......................................................................................... 47
Telco Alarm Connector....................................................................................... 48
10.0 Grounding Considerations ....................................................................................... 54
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MPCMM0002 CMM—Contents
10.1 ESD Discharge Protection....................................................................................54
10.2 Chassis Ground and Logic Ground........................................................................54
11.0 Thermals..................................................................................................................55
11.1 Processor Heat Sink ...........................................................................................55
11.2 Module Orientation.............................................................................................55
11.3 Module Airflow Path ...........................................................................................55
11.4 Airflow Requirements .........................................................................................57
11.5 Board Resistance Curve......................................................................................57
11.6 Thermal Sensors................................................................................................58
12.0 Management Module Specifications..........................................................................59
12.1 Feature Summary..............................................................................................59
12.2 Dimensions and Weight ......................................................................................60
12.3 Environmental Characteristics .............................................................................60
12.4 Product Reliability Estimate.................................................................................60
12.5 Agency Certifications..........................................................................................61
13.0 Guidelines for Third Party Chassis Vendors..............................................................62
13.1 High Level Design..............................................................................................62
13.2 IPMB Buses.......................................................................................................63
13.3 GPIO Pins .........................................................................................................66
13.4 Interfacing FRUs to the CMM ...............................................................................67
13.5 Intelligent FRUs.................................................................................................68
13.6 Non-Intelligent FRUs with I2C* Support................................................................68
13.7 Non-Intelligent FRUs without I2C Support .............................................................69
13.8 FRU Data Storage for Non-Intelligent Devices........................................................69
13.9 Controllers and I/O Ports for Non-Intelligent Devices ..............................................70
13.11 Related Documents............................................................................................70
14.0 Warranty Information..............................................................................................71
®
14.2 Returning a Defective Product (RMA)....................................................................71
14.3 For the Americas ...............................................................................................72
15.0 Customer Support....................................................................................................74
15.1 Customer Support..............................................................................................74
15.2 Technical Support and Return for Service Assistance ..............................................74
15.3 Sales Assistance................................................................................................74
15.4 Product Code Summary......................................................................................74
16.0 Certifications ...........................................................................................................75
16.1 Material Declaration Data Sheet...........................................................................75
17.0 Agency Information .................................................................................................77
17.1 North America (FCC Class A)...............................................................................77
17.3 Safety Instructions (English and French-translated below).......................................78
17.4 Taiwan Class A Warning Statement ......................................................................78
17.5 Japan VCCI Class A............................................................................................79
17.6 Korean Class A..................................................................................................79
17.7 Australia, New Zealand.......................................................................................79
18.0 Safety Warnings ......................................................................................................80
18.1 Mesures de Sécurité...........................................................................................81
18.3 Norme di Sicurezza............................................................................................85
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Contents—MPCMM0002 CMM
18.4 Instrucciones de Seguridad................................................................................. 87
18.5 Chinese Safety Warning ..................................................................................... 89
Figures
®
Top View of the Intel NetStructure MPCMM0002 CMM ................................................. 13
Intel® 80321 Processor Internal Block Diagram........................................................... 17
Dual Bus IPMB Isolation............................................................................................ 23
CMM Backing Plate Dimensions.................................................................................. 25
10 CMM ESD Strip Electrical Definition............................................................................. 27
11 Power System Block Diagram .................................................................................... 29
12 CDM Power Input..................................................................................................... 30
13 Ethernet Port Poaching ............................................................................................. 31
14 CMM Power Connector .............................................................................................. 32
15 CMM Data Connector................................................................................................ 36
16 Cross-Connected CMM Signals ................................................................................... 41
17 Guide Post to Backplane ........................................................................................... 41
18 Chassis Data Module I2C Routing............................................................................... 43
19 CMM Front Panel...................................................................................................... 45
20 Serial Port RJ-45 Connector....................................................................................... 46
21 Serial Port RJ-45 Cabling........................................................................................... 46
22 Ethernet Port RJ-45 Connector Front View................................................................... 47
23 DB-15 Telco Alarm Connector.................................................................................... 48
24 Telco Alarm Contact Wiring for Dual Connectors........................................................... 49
25 Failure Scenario with Dual Telco Alarm Connectors ....................................................... 50
26 Parallel Inputs to Telco Alarm Connectors.................................................................... 50
27 Cascaded Telco Alarm Cables..................................................................................... 51
28 CMM Front Panel with Labels ..................................................................................... 52
29 CMM Heat Sink ........................................................................................................ 55
30 Side-to-Side Air Flow................................................................................................ 56
31 Front-to-Back Air Flow.............................................................................................. 57
32 High Level CMM Design............................................................................................. 62
33 I/O Signals of the CMM............................................................................................. 63
34 Radial Bus Topology ................................................................................................. 65
35 Shared Bus Topology................................................................................................ 66
36 FRU That Uses the ADM1026 ..................................................................................... 69
Tables
Acronyms and Terms................................................................................................ 10
Processor Features................................................................................................... 17
FPGA Features......................................................................................................... 20
Power Connector Pinouts Matrix................................................................................. 34
10 Power Connector Header Pin Placement ...................................................................... 35
11 Data Connector Pinouts ............................................................................................ 37
12 Data Connector Pinouts Matrix................................................................................... 38
13 Pin Staging ............................................................................................................. 40
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MPCMM0002 CMM—Contents
14 CDM Health LED States .............................................................................................43
15 RTM Serial Port Pinout...............................................................................................46
16 Ethernet Port Pinouts ................................................................................................47
17 Ethernet Port LED States...........................................................................................48
18 Telco Alarm Pinout....................................................................................................49
19 Ganged Telco Alarm Cable Pinouts with Cabling............................................................51
20 CDM Health LED States .............................................................................................52
21 CMM Health LED States.............................................................................................53
22 CMM Hot Swap LED States.........................................................................................53
23 Typical Airflow and Cooling Requirements ....................................................................57
24 Airflow Guidelines.....................................................................................................58
25 Dimensions and Weight.............................................................................................60
26 Environmental Characteristics ....................................................................................60
27 Reliability Estimate Data............................................................................................61
28 Physical Bus Number Mapping....................................................................................64
29 Related Documents...................................................................................................70
30 MPCMM0002 Product Code Summary ..........................................................................74
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Revision History—MPCMM0002 CMM
Revision History
Date
July 2007
Revision
Description
004
003
CMM drawings updated
July 2007
May 2007
April 2006
Failure Rate and MTBF values updated.
Quick Start section updated with new CMM removal procedure.
CMM dimension drawings updated.
002
001
Initial release of this document.
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MPCMM0002 CMM—Document Organization
1.0
Document Organization
®
This document describes the operation and use of the Intel NetStructure MPCMM0002
CMM.
The following topics are covered in this document.
Chapter 2.0, “Introduction” introduces the key features of the MPCMM0002 CMM. This
chapter includes a product definition and a list of product features.
Chapter 3.0, “Getting Started” provides installation and setup information for the
MPCMM0002 CMM. This chapter should be read before using the management module.
Chapter 4.0, “Module Components” describes the major components of the CMM and
how the components are interconnected.
Chapter 5.0, “Mechanical Information” provides information on the critical dimensions
of the CMM.
Chapter 6.0, “Backplane Considerations” identifies the IPMB routing requirements,
power distribution options, and Ethernet routing information for chassis designers to
build the MPCMM0002 CMM into their shelves.
Chapter 7.0, “Rear Connections” details the pinouts for the two connectors that
interface with a backplane or coplanar mating board.
Chapter 8.0, “Chassis Data Modules (CDMs)” provides information on how the CMM
accesses the Chassis Data Module (shelf FRU repository).
Chapter 9.0, “Front Panel” details the cable connections and LEDs on the CMM’s front
panel
Chapter 10.0, “Grounding Considerations” provides information on grounding jumpers
and ESD discharge features.
Chapter 11.0, “Thermals” provides information on the cooling requirements for the
CMM.
Chapter 12.0, “Management Module Specifications” contains the electrical,
environmental, and mechanical specifications for the CMM.
Chapter 13.0, “Guidelines for Third Party Chassis Vendors” provides a high-level design
of the MPCMM0002 CMM to help third party chassis vendors incorporate it into their
chassis.
Chapter 14.0, “Warranty Information” defines the warranty for the MPCMM0002 CMM.
Chapter 15.0, “Customer Support” provides information on reaching Intel customer
support.
Chapter 16.0, “Certifications” lists the various applicable product certifications of the
CMM.
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Document Organization—MPCMM0002 CMM
Chapter 17.0, “Agency Information” contains notices from various certifying agencies.
Chapter 18.0, “Safety Warnings” lists important safety warnings in various languages.
1.1
Acronyms and Terms
The following special acronyms and terms are used in this specification:
Table 1.
Acronyms and Terms
Acronym/Term
Board
Meaning
Front Board as defined in PICMG 3.0 specification
Chassis Data Module
CDM
CFM
Cubic Feet per Minute
Chassis
CMM
Physical structure containing boards, backplane, PEMs, etc,; same as shelf
Chassis Management Module
COM
Component Side 1
Primary side of PCB, used for synergy with PICMG 3.0 terminology
Secondary side of PCB
Component Side 2
EMI
Electromagnetic Interference
ESD
Electrostatic Discharge
ETSI
Frame
FRU
European Telecommunications Standards Institute
Structure in which chassis is mounted; could be enclosed or open; same as rack
Field Replaceable Unit
2
I C
Inter-Integrated Circuit Bus
IPMB
IPMI
LED
Intelligent Platform Management Bus
Intelligent Platform Management Interface
Light Emitting Diode
LFM
Linear Feet per Minute
Mate Last, Break First. Refers to the shortest pin. Used to enable a Hot Swap
controller to cut or connect power to a board.
MLBF
NC
Network Equipment Building Standards
Printed Circuit Board
NEBS
NO
PCB
PEM
Power Entry Modules
PCI Industrial Computers Manufacturers Group, sponsor of AdvancedTCA
specification
PICMG
Rack
RTM
SCap
SEL
Structure in which chassis is mounted; could be enclosed or open; same as frame
Rear Transition Module
Super Capacitor
System Event Log
Shelf
ShMC
SSI
See Chassis
Shelf Management Controller
Server System Infrastructure
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Introduction—MPCMM0002 CMM
2.0
Introduction
®
This chapter provides an overview of the Intel NetStructure MPCMM0002 CMM (CMM).
It includes a product definition and summaries of the module’s hardware features.
®
The CMM’s software features are detailed in the Intel NetStructure MPCMM0001
®
Chassis Management Module and Intel NetStructure MPCMM0002 Chassis
Management Module Software Technical Product Specification for version 6.1. That
document also describes how to configure the firmware to work in a third-party
chassis.
2.1
2.2
Architecture Specification
The MPCMM0002 CMM is designed to be compatible with AdvancedTCA* products,
which are based on the PICMG* 3.0 specification. A short form of the PICMG 3.0
specification and other AdvancedTCA information can be found on PICMG’s
AdvancedTCA web site at:
User Documentation
®
The Intel NetStructure MPCMM0002 CMM is part of the Intel NetStructure family of
products. The latest Intel NetStructure product information and documentation are
available at:
Documents that are not available on Internet web sites may be obtained from your
Intel Business Link (IBL) account, or contact your Intel Field Sales Engineer (FSE) or
Field Application Engineer (FAE) to obtain access.
Refer to the following documentation for more information about the components that
may be in your system.
®
• Intel NetStructure MPCMM0001 Chassis Management Module and Intel
®
NetStructure MPCMM0002 CMM Software Technical Product Specification for
version 6.1.
• Intel NetStructure® MPCBL0001 High-Performance Single Board Computer
Technical Product Specification
2.3
Product Definition
The MPCMM0002 CMM 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* 3.x series of specifications. This management module is
designed to be used in certain third-party shelves.
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MPCMM0002 CMM—Introduction
Key carrier-grade features of the MPCMM0002 CMM include the following:
• Full Shelf Management Controller and Shelf Manager capability as defined in the
PICMG 3.0 specification.
• Support for up to 16 board slots in an AdvancedTCA* chassis.
• Hybrid dual IPMB star topology support for improved reliability, security, and
throughput.
• Compact 4U x 280 mm x 3HP size to simplify integration into shelves.
• Comprehensive management interfaces including CLI, SNMP, RPC, and RMCP.
• Dual 10/100 Mbps Ethernet controllers with support for individually routing
connections via software to the front panel, optional rear transition modules
(RTMs), or PICMG 3.0 backplane.
• Dual serial ports (one out front; one out the RTM) for local console support.
• Isolated telecom alarm connections front or rear to connect to standard telecom
alarm systems.
• Direct –48 VDC inputs with on-board power regulation for maximum uptime.
• Low power design, using less than 30 W.
• High-temperature design to survive 70° C incoming (pre-heated) air to CMM for
NEBS-style temperature excursions with the proper airflow.
• Dedicated communication paths between dual CMMs for active-standby operation.
• Support for chassis data modules (FRU modules), fan trays, PEMs, and external
temperature sensors.
• Integrated backing plate to help meet the full range of standard NEBS and ETSI
tests including earthquake, fire, immunity, and safety.
®
®
®
Intel 80321 processor with Intel XScale technology, 128 MByte RAM, and 64 MByte
flash memory to provide headroom for future expansion and space for custom user
applications on board.
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Getting Started—MPCMM0002 CMM
3.0
Getting Started
3.1
Installing the CMM
®
The Intel NetStructure MPCMM0002 CMM is designed to fit in a variety of compatible
chassis and orientations. This chapter provides some useful information for installing
the management module in a chassis (shelf), but you will also need to read the third-
party documentation provided by the chassis manufacturer or system vendor for your
chassis before you install the module.
In addition to the information provided in the third-party documentation just
mentioned, you should also read and follow the precautions below:
Caution:
As noted in the PICMG* 3.0 specification, AdvancedTCA* products (including the
MPCMM0002 CMM) are designed to be installed and serviced by trained service
personnel only, not equipment operators. The primary reason for this is the high
voltage level (over 60 VDC) that can be present in AdvancedTCA systems.
Caution:
Many components in the system contain sensitive electronic components. Service
personnel should follow proper grounding procedures when installing or servicing this
equipment.
®
Figure 1.
Top View of the Intel NetStructure MPCMM0002 CMM
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MPCMM0002 CMM—Getting Started
3.1.1
Quick Start
1. Open the packing material, find the packing list, and ensure that all the necessary
®
components are present for the Intel NetStructure MPCMM0002 CMM.
2. Take the MPCMM0002 CMM to the chassis in which it will be installed.
3. Following standard ESD protection procedures, remove the CMM from its anti-static
bag.
4. Insert the management module into the card guides for the dedicated CMM slot.
Follow the chassis manufacturer’s or system vendor’s directions for the proper
orientation of the CMM.
5. As the CMM is being pushed into the slot, keep the ejector handle open until it
engages with the card guide. Ensure the alignment pins on the faceplate engage
the receptacles on the card cage. When the ejector handle engages, rotate the
ejector handle toward the faceplate until the card is fully seated.
6. Use a screwdriver or pair of pliers to tighten the retention screws on both ends of
the faceplate.
7. If the chassis power is on, the CMM will turn on automatically.
8. Connect the appropriate cables to the front or rear serial port, LAN ports. Connect
the telco alarm connector, if desired.
9. If a second CMM is to be installed in the chassis, follow the same instructions in this
procedure.
To remove the CMM:
1. Loosen the retention screws with a screw driver (Type#1 Philips head screw
driver).
2. Pull the ejector away from the faceplate (unlatch condition for ejector) enough to
ensure that the blue LED on the faceplate begins to flash. At this stage, the CMM
remains attached to the chassis (the backplane connector of CMM is still mated
with the chassis’s connector).
3. When the blue hot swap LED turns solid blue, pull the ejector farther out in order to
eject the CMM from the chassis.
Note:
The hot swap LED will turn solid blue only when the redundancy feature is fully
enabled.
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Module Components—MPCMM0002 CMM
4.0
Module Components
4.1
Block Diagram
®
Figure 2.
CMM Block Diagram
RTM
BP
Switch
80321
Interrupt
router
8/16/32/64 MB
flash
Intel®
XScale™
Core
and IOP
w/ PCI
Bridge
SODIMM
Socket
128MB
Control
Address
Decode
I2 C[0:20]
I2C
Engines
Latch
GPIO
42 I2C
FPGA 1
10/100
NIC
RJ45
RJ45
Mux
CPLD
Interrupt
router
10/100
NIC
Mux
I2C
Control
Address
Decode
I2C
Engines
I2C[21:41]
Battery
ADM1026
SIO Serial
Controller
RTC
Alarm
Alarm
GPIO
Telco
Relays
FPGA 2
Drivers
Debug
LEDs
LEDs
3
GPIO
Debug
Button
Clocks
OCS
Debug
RS-232
-48VDC Power
Control
FRU
4
Health/
Fault
LED
User
LEDs
Ejector
Blue LED
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MPCMM0002 CMM—Module Components
Figure 3.
CMM Top View Layout
Opto
Power Brick
Power
Bulk Cap
Telco
Guide
Pin
+
+
Relay
Serial
RAM
CPU
S2 switch
Battery
LAN B
Data
Flash
FPGA
Debug
LED
LAN A
LED
NIC1 NIC2
Super Cap
M
J3
CPLD
B5106-01
The PCB is composed of 10 layers of FR406 (or equivalent material). The outer layers
(1 and 10) are 0.5 ounce copper (plated to 1.6 ounces); all other layers are 1 ounce
copper.
Note:
S2 above is a four-pole DIP switch block. The first switch in the DIP, S2-1 (1:8), is used
for password reset; the other three switches, S2-2, S2-3, and S2-4, are currently not
used. The default position for S2-1 is the ‘off’ position (open). See the Intel
®
®
NetStructure MPCMM0001 Chassis Management Module and Intel NetStructure
MPCMM0002 CMM Software Technical Product Specification for procedures on resetting
the CMM password.
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Module Components—MPCMM0002 CMM
®
4.2
Intel 80321 Processor
®
The CPU in the MPCMM0002 CMM is an Intel 80321 Processor/PCI Application Bridge
®
®
Figure 4.
Intel 80321 Processor Internal Block Diagram
2
I C
72-Bit
I/F
32-Bit
I/F
Serial Bus
Serial Bus
Intel®
XScale®
Core
2
DDR I/F
Unit
PBI Unit
(Flash)
I C Bus
Application
Accelerator
SSP
Serial Bus
Interface
Internal Bus
Two
DMA
Channels
Performance
Monitoring
Unit
Address
Translation
Unit
Messaging
Unit
Intel® 80321 I/O Processor
64-bit / 32-bit PCI Bus
Notes:
®
®
Intel XScale Microarchitecture is ARM* Architecture compliant.
* Other brands and names are the property of their respective owners.
B3063-01
This processor runs at 600 MHz and has an integrated chipset for lower power usage;
Table 2.
Processor Features (Sheet 1 of 2)
ARM* V5T Instruction Set
ARM V5E DSP Extensions
®
Integrated Intel XScale Core
400 MHz and 600 MHz
Write Buffer, Write-back Cache
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MPCMM0002 CMM—Module Components
Table 2.
Processor Features (Sheet 2 of 2)
PCI Local Bus Specification, Rev. 2.2 compliant
PCI-X Addendum to the PCI Local Bus Specification, Rev. 1.0a
64-bit/66 MHz Operation in PCI Mode
64-bit/133 MHz Operation in PCI-X Mode
Support 32-bit PCI Initiators and Targets
Four Split Read Requests as Initiator
PCI Bus Interface
Eight Split Read Requests as Target
64-bit Addressing Support
PC200 Double Data Rate (DDR) SDRAM
Up to 1 GByte of 64-bit DDR SDRAM (128 MBytes on MPCMM0002)
Up to 512 MBytes of 32-bit DDR SDRAM
Single-bit Error Correction, Multi-bit Support (ECC)
1024 Byte Posted Memory Write Queue
40- and 72-bit wide Memory Interface
2 KByte or 4 KByte Outbound Read Queue
4 KByte Outbound Write Queue
Memory Controller
Address Translation Unit
4 KByte Inbound Read and Write Queue
Connects Internal Bus to PCI/PCI-X Bus
Two Independent Channels Connected to Internal Bus
Up to 1064 MByte/s Burst Support in PCI-X Mode
Up to 1600 MByte/s Burst Support for Internal Bus
Two 1 KB Queues in Ch-0 and Ch-1
DMA Controller
232 Addressing Range on Internal Bus Interface
264 Addressing Range on PCI Interface
Performs XOR on Read Data
Application Accelerator Unit
Compute Parity Across Local Memory Blocks
1 KByte/512 Byte Store Queue
2
Two Separate I C Units (one used on MPCMM0002)
Serial Bus
2
I C Bus Interface Units
Master/Slave Capabilities
System Management Functions
Full-duplex Synchronous Serial Interface
Supports 7.2 KHz to 1.84 MHz Bit Rates
One Dedicated Global Time Stamp Counter
Fourteen Programmable Event Counters
Three Control/Status Registers
Two Dual-programmable 32-bit Timers
Watchdog Timer
SSP Serial Port
Peripheral Performance
Monitoring Unit
Timers
544-Ball, Plastic Ball Grid Array
(PBGA)
Eight General Purpose I/O Pins
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Module Components—MPCMM0002 CMM
4.3
4.4
Memory
The CMM has a SODIMM (Small Outline Dual Inline Memory Module) socket on board.
The SODIMM is populated with a 128 MByte unbuffered memory module.
®
The CMM also has four separate 16 MByte flash modules. These are Intel E28F128
flash memory modules. Each memory module has multiple lockable regions within the
flash.
Ethernet
®
The CMM has two Intel 82551QM Fast Ethernet Multifunction Controllers with
integrated media access controllers and physical interfaces. The output from each of
these chips is passed to a dedicated multiplexing device (mux), the SN74CBT16124.
Each mux can be individually controlled to send the Ethernet signals to one of three
destinations: the front panel, an optional RTM connection, or a separate backplane
connection. Separate magnetics (six total) provide magnetic coupling for the 10BASE-T
or 100BASE-TX signaling commonly associated with 10/100 MByte/s Ethernet.
backplane connections are at the bottom of the board. The two magnetics for the front
panel are integrated into the front panel RJ-45 connectors.
4.5
Serial Port UARTs
The UART (Universal Asynchronous Receiver/Transmitter) controller on the CMM board
is a Texas Instruments* TL16C752B dual UART chip. The first serial port is connected to
an RJ-45 connector on the front panel; the second serial port is passed to the rear of
the card for an optional RTM connection. Full modem hardware signals are passed
through to the RTM.
The UART driver provides 15 kV of ESD protection (8 kV contact, 15 kV air discharge).
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MPCMM0002 CMM—Module Components
4.6
FPGA
The MPCMM0002 CMM has two redundant field-programmable gate arrays (FPGAs) on
board. These two Xilinx* Spartan* II XC2S200 FPGAs have identical internal design,
Table 3.
FPGA Features
Signal
Description
IPMI 1.5-compliant buses, pulled up to 3.3 V and operating at 100 kHz
IPMB
compatible
buses
20 IPMB ports per FPGA (40 total): 32 IPMBs for dual star routing to up to 16
AdvancedTCA* slots, 2 shared buses for PEMs and fan trays, 2 buses for communication
between CMMs, and 4 spare IPMBs for future expansion
2
One I C port per FPGA (2 total) for communication to CDMs
Bus
50nS basic memory bus with data, address, chip select, output enable, and write enable
The FPGA is responsible for identifying and routing interrupt requests from multiple sources
on the CMM, including the following: internal IPMB engine, other FPGA, both UARTs, the
ADM1026 controller, the CPLD, and both LAN controllers
Interrupt
Router
4.7
4.8
Redundancy and Hot Swap CPLD
A Xilinx XC95144XL CPLD is used on the CMM to control the redundancy failover logic,
Hot Swap logic, FPGA control, and address decode for simple devices on the CMM. This
CPLD also contains the PCI arbitration circuitry for the 80321 processor and the
Ethernet controllers.
Watchdog Timer
A Maxim* MAX6374KA-T watchdog timer is used to protect against CPU lockups. The
CMM firmware strobes the watchdog periodically; if the CPU fails to strobe the
watchdog within a given time interval, the watchdog sends a signal to the CPLD that
forces the CPU to reset. This allows the processor to automatically recover to a known
good state in the case of lockup.
Note:
If the watchdog timer fires, the IPMB signals are not affected by the CPU timer reset.
The other CMM automatically takes over and manages the chassis.
4.9
Real-Time Clock
The CMM time-stamps certain events as they occur within the system, particularly
entries into the System Event Log (SEL). A Dallas Semiconductor* DS1307 real-time
clock provides this capability.
To avoid losing the current time, the CMM provides independent power to the DS1307
with an on-board battery (size CR2032). The battery provides approximately five years
of run time for the clock in case of a power failure or if the CMM is removed from a
chassis.
Batteries have limited shelf lives. After many years in storage, a battery may not be
able to hold a charge. To supplement the battery, a super capacitor (SCap) is also
provided on the CMM; this provides a mechanism to get up to two hours of backup
power for the clock in case of a power failure. Though the SCap will not hold a charge
for even a full day, the ability to power the clock circuit during a power failure even
after years in storage is a reliability feature of the CMM.
The battery and SCap are both diode-OR’d to ensure that either one can supply the
power for the clock without being affected by the other backup power source.
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Module Components—MPCMM0002 CMM
4.10
4.11
ADM1026 Controller
An Analog Devices* ADM1026 controller monitors the on-board voltages and manages
2
the thermal sensors. The processor communicates with the ADM1026 through an I C
bus.
Hot Swap Controller
The CMM uses an LTC4250AH* Hot Swap controller to ramp voltages and watch for
over-current conditions. If the CMM draws more than 2.5 A for more than 500 µs, the
Hot Swap controller terminates.
The Hot Swap controller waits for the enable signals (short pins tied to each return) to
connect before ramping up the circuitry on the CMM. Similarly, if a CMM is pulled out of
the system, the Hot Swap controller immediately cuts power to the board.
4.12
4.13
Ride-Through Support
Many carriers require equipment to survive a 5 ms period without any power in order to
survive power glitches due to short circuit, power switchovers, etc. Section 4.1.4.3 of
the PICMG 3.0 specification requires boards to survive this 5 ms drop-out and
recommends that other chassis elements also have capability to ride through these
transients.
The MPCMM0002 CMM module meets this requirement. The CMM will survive the zero
volt transient described in Table 4-4 of the PICMG 3.0 specification. Large bulk
capacitors next to the DC-DC power converters provide this hold-up capacity.
IPMB Isolation Logic
In a carrier-grade system it is important to prevent cascaded failures; that is, a failure
in one element that affects other system elements and causes them to fail or lose
significant functionality. A shared bus is more sensitive to a single item impacting other
elements than a simple point-to-point system. This is one reason the MPCMM0002 CMM
chassis management module implements the hybrid dual IPMB star topology outlined in
Some IPMB channels are dedicated links between the CMMs and an individual blade;
this type of link is called a star. Some IPMB channels are shared among several devices,
and this type of link is called a bus. The star and bus elements have different isolation
logic in the CMM.
4.13.1
Dual Star IPMB Isolation
The dual star IPMBs on the MPCMM0002 CMM use MOSFET-controlled isolators to
disconnect all the radial IPMB signals automatically if power fails on a CMM. The
from the dual star IPMBs if power fails.
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MPCMM0002 CMM—Module Components
Figure 5.
IPMB Dual Star Isolation
CMM 1
IPMB_PWRGOOD
IPMB_PWR
FPGA1
IPMBa
IPMB_PWRGOOD
IPMB_PWR
FPGA2
IPMBb
SLOT a
or
CDMa
CMM 2
IPMB_PWRGOOD
IPMB_PWR
SLOT b
or
CDMb
FPGA1
IPMBa
IPMB_PWRGOOD
IPMB_PWR
FPGA2
IPMBb
4.13.2
Dual Bus IPMB Isolation Requirements
The isolation requirements for a dual bus IPMB are more stringent. In addition to the
power failure isolation needed by radial IPMBs, dual bus IPMBs must be able to
selectively enable and disable the isolation on each bus. Furthermore, each element on
the bus must protect against errors that can cause the bus to hang. Finally, there are
electrical drive and rise time requirements that are more difficult to meet on a shared
bus.
An LTC4300 on each bus provides the necessary individually selectable isolation
mechanisms in addition to rise time acceleration. A watchdog timer is also used to
ensure the bus is isolated if the CPU locks up and resets so that glitches are not
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Module Components—MPCMM0002 CMM
Figure 6.
Dual Bus IPMB Isolation
Local
IPMB_PWR
Local
IPMB _PWR
IPMBa to
Backplane
LTC4300A
IPMBa
ENA
INHIBITa#
GPIO_0
FPGA 2
Local
IPMB_PWR
Local
IPMB _PWR
IPMBb
to
Backplane
LTC4300A
IPMBb
ENA
INHIBITb#
GPIO_1
WDT
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MPCMM0002 CMM—Mechanical Information
5.0
Mechanical Information
5.1
Dimensions
All dimensions are shown in millimeters.
The form factor of the CMM PCB has a height of 144.4 mm and a depth of 282.5 mm.
The faceplate has a horizontal slot pitch (width) of 3 HP (0.6 inches).
dimensions is based on the mounting hole in the upper left corner.
Figure 7.
CMM Component Side 1 Dimensions
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MPCMM0002 CMM—Mechanical Information
The gasket is on the secondary side of the backing plate and extends over the pitch
line, just as PICMG 3.0 boards extend their gasket over the pitch line. The outer face of
the backing plate is 0.15 mm (0.0059 inches) inside the nearest pitch line. Since the
gasket has a nominal compressed size of 1.53 mm (0.0602 inches) and a four-sigma
range of 0.99 mm (0.0390 inches) to 2.07 mm (0.0815 inches), the gasket must seal
on a surface that is between 0.84 mm (0.0331 inches) and 1.92 mm (0.0756 inches)
from the left side pitch line.
Figure 9.
CMM Side View Dimensions
5.2
Front Panel Hardware
alignment posts on the MPCMM0002 CMM faceplate. Like the hardware used with
PICMG* 3.0 boards, these items are M3 hardware. However, since the 15.24 mm (0.6
inches) pitch of the CMM does not allow sufficient room to put the retention screws and
alignment posts side by side, the alignment posts are offset slightly.
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Mechanical Information—MPCMM0002 CMM
There is only one ejector on the CMM, but it matches the subrack interface geometry
defined in Section 2.2.7 of the PICMG 3.0 specification. Note, however, that the ejector
handle is 2 mm (0.0787 inches) thick, not the 2.5 mm (0.0984 inches) thickness that
many PICMG 3.0 boards use.
A switch on Component Side 2 of the PCB detects the opening and closing of the ejector
handle.
5.3
Rear Connector Placement
5.3.1
MPCMM0002 CMM Rear Connectors
The CMM uses three connectors (for power, data, and a guide pin) that can mate with
either vertical (backplane) connectors or coplanar connectors. The power connector is
Connector” on page 32, the A1 pin on the connector is located at coordinates (2.37,
96.34). The data connector is an FCI 89095-102LF (or equivalent). Pin 1 on the data
connector is located at coordinates (13.7, 64.65). The guide pin connector is an FCI
73474-201 (or equivalent).
5.3.2
5.3.3
Coplanar Mating Connectors
In a coplanar mating arrangement, a FCI* HM1L54LDP000H6P connector with FCI*
72019-101 guide pin is mated to the data connector on the CMM, while a FCI*
HM1L52LDP493H6P (or equivalent) connector mates with the power connector.
Vertical Mating Connectors
When a CMM board mates directly into a backplane, vertical mating connectors are
used. The data connector that mates to the CMM is a FCI* 89009-116 with FCI*
70295-001 guide pin and 73475-101 shroud, while the power connector is an FCI*
HM1W52ZPR493H6P (or equivalent). Since they are mounted on a backplane, the rear
of these two connectors must be in the same plane.
Example: If mounted horizontally with Component Side 1 up, the bottom row of holes
for the data connector is 1.775 mm (0.0699 inches) lower than the power connector.
5.4
ESD Discharge Strip
The ESD strip along the bottom of the CMM follows the guidelines in Section 2.2.5 of
the PICMG* 3.0 specification. The electrical definition of the ESD discharge strip is
shown below.
Figure 10.
CMM ESD Strip Electrical Definition
10MΩ
10MΩ
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MPCMM0002 CMM—Backplane Considerations
6.0
Backplane Considerations
6.1
IPMB Routing
®
The Intel NetStructure MPCMM0002 CMM is designed to support a hybrid dual IPMB
star topology.
The CMMs can support up to 16 slots, the maximum number of boards in a PICMG* 3.0
chassis. Each board in the subrack has two dedicated IPMBs going to it. Each IPMB is
arranged in a ‘Y’ pattern: the connection from the board is split to two legs, one going
to each CMM. Each CMM is present on both buses to each board. In addition, there are
two shared IPMB buses routed between the CMMs for private, dedicated IPMB traffic
between the two CMMs. While the CMMs theoretically can talk between themselves
over any of 30+ IPMBs, the private IPMB traffic between CMMs is normally over these
two inter-CMM links.
Note:
A shared dual IPMB bus is used for chassis elements such as PEMs and one or more fan
trays. This shared dual bus allows the CMM to support varying numbers of PEMs, fan
trays, and other intelligent chassis elements.
In compliance with the PICMG 3.0 specification, the shared bus IPMB signals have an
isolating buffer device (LTC4300) to ensure proper bus isolation in a shared bus
environment. The radial (star) IPMB connections to each node are not required to have
this same isolation circuitry since each node is effectively isolated already by the star
topology.
6.2
CMM Power
6.2.1
DC Power Input
Each CMM receives dual -48 VDC power feeds on its power connector. Since the
maximum power draw is 28 W, the maximum power draw from each CMM is less than 1
A. The typical power draw for each CMM is 17 W. Most of the power is derived from the
3.3 V converter.
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Backplane Considerations—MPCMM0002 CMM
Figure 11.
Power System Block Diagram
3.3V
5V
-48V
-48V to
3.3V
Power
Filter
Cap
Power
Enable
(MLBF)
LT1371
LT1930
Hotswap
Controller
Brick
12V
-48VReturn
2.5V
1.3V
TPS54610
TPS54610
PG33
ADM1026
PG5
CPLD
Discrete
Linear
1.25V
Regulator
Table 4.
Voltage Usage
Max
Current
Voltage
Where Used
Monitored By
12 V
5 V
0.3 A
1 A
4 A
5 A
3 A
1 A
Op Amp and IPMB isolation circuit
Misc components that cannot use 3.3 V
Most logic
ADM1026
ADM1026
ADM1026
ADM1026
ADM1026
ADM1026
3.3 V
2.5 V
1.3 V
1.25 V
Memory interface
IOP321 core
DDR Termination
The CMM supports an input voltage range of –34 VDC to –72 VDC. However, the 5 ms
assumes a prior minimum voltage of –43 VDC.
6.2.2
CDM Power
The CMM provides a few powered outputs that chassis designers can use as they see
fit. The chassis data modules (sometimes called shelf FRUs) are described in more
diode-OR’d 5 V output at 50 mA maximum current to the CDMs. Chassis designers can
use this 5 V output to power simple EEPROMs in a CDM. The CMMs can both drive a
tricolor LED on the CDM as well.
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MPCMM0002 CMM—Backplane Considerations
Figure 12.
CDM Power Input
CDM 1
CDM 2
6.2.3
Filter Tray
The CMM also provides direct support for a filter tray. The CMM provides signals to
handle a filter presence switch, two thermistors, and a tricolor LED.
The filter presence switch is typically a mechanical switch that connects the AF_PRES#
signal to ground when an air filter is installed in the chassis. The switch is debounced in
software.
The two thermistor inputs provide redundant temperature readings to the CMM. The
thermistors should be a NTC (negative thermocouple) device like the US Sensor*
dedicated logic ground reference signal AFTREF is provided to isolate localized
perturbations to logic ground. Chassis designers should use the AFTREF signal
exclusively for these thermocouples and should route the two temperature signals and
the reference signal in close proximity.
6.2.4
Power Switch
The CMM has support for an optional soft power switch. This dual-pole input signal can
be used to signal the CMM to gracefully shut down the elements within the chassis.
Both poles of this switch are debounced in software. If only one contact on the switch
closes, the CMM flags this as an error and generates a system event log entry.
These direct drive capabilities of the CMM are summarized in the table below. All the
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Backplane Considerations—MPCMM0002 CMM
Table 5.
Chassis Elements Directly Driven by CMM Hardware
Chassis
Element
Component
Notes
50 mA @ 5 V max; typically uses series resistance to drop
voltage to 3.3.V.
EEPROM + others
CDM
LED
Tricolor LEDs driven by CMM
2 Thermistors
LED
NTC sensors, such as US Sensor USX2257
Red plus green LEDs driven by CMM
Soft power switch to CMMs
Filter Tray
Power switch
LAN ports
Dual pole switch
2 LEDs each (4 total)
Speed on one LED, Link and Activity on the other
6.2.5
Ethernet Routing
Each CMM provides two Ethernet channels that can be routed to the base interface of
PICMG* 3.0 hub slots. The PICMG 3.0 specification only allocates space for one ShMC
slot, but the backplane can typically be set up to “poach” an unused slot in order to
provide a connectivity option.
A 14-slot chassis typically uses 14 base interface channels (13 for other slots plus one
for the ShMC). However, the specification defines 16 total channels for the base
interface. The second port from each CMM can be routed to an unused upper channel of
the opposite hub or fabric board.
Figure 13.
Ethernet Port Poaching
CMM 1
CMM 2
LAN A
LAN B
LAN A
LAN B
Ethernet
Fabric A
Ethernet
Fabric B
Port 0
Port 1
...
Port 0
Port 1
...
Port 14
Port 15
Port 14
Port 15
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MPCMM0002 CMM—Rear Connections
7.0
Rear Connections
7.1
CMM Connector Pinouts
Each CMM has a power connector and a data connector.
7.1.1
CMM Power Connector
Figure 14.
CMM Power Connector
12
1
E
A
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Rear Connections—MPCMM0002 CMM
Power Connector Pinouts
Table 6.
Pin
Signal
Purpose
Pin Length
Long
B12, D12
A5, C5, E5
C1, E1
SGND
Shelf ground, mostly for safety
Logic ground for signal returns
A power feed
GND
Long
-48 V_A
-48 V_B
Medium
Medium
Medium
Medium
B2, D2
B power feed
C3, E3
-48 VRTNA
-48 VRTNB
Return path for A feed
Return path for B feed
B4, D4
Return path for A feed (mate last, break first pin)
that allows Hot Swap controller to turn system
power on and off
A1
A3
-48VRTN_A_MLBF
-48VRTN_B_MLBF
Short
Short
Return path for B feed (mate last, break first pin)
that allows Hot Swap controller to turn system
power on and off
D6
E9
PWRALRM_NO
MNRALRM_COM
MJRALRM_COM
CRTALRM_COM
PWRALRM_COM
MNRALRM_NO
MJRALRM_NO
CRTALRM_NO
MNRALRM_NC
MJRALRM_NC
CRTALRM_NC
MNRRES+
Power alarm relay, normally open
Minor alarm relay, common path
Major alarm relay, common path
Critical alarm relay, common path
Power alarm relay, common path
Minor alarm relay, normally open
Major alarm relay, normally open
Critical alarm relay, normally open
Minor alarm relay, normally closed
Major alarm relay, normally closed
Critical alarm relay, normally closed
Minor alarm reset, positive polarity
Minor alarm reset, negative polarity
Major alarm reset, positive polarity
Major alarm reset, negative polarity
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
Medium
C9
A9
B6
E7
C7
A7
E11
C11
A11
D10
B10
D8
B8
MNRRES-
MJRRES+
MJRRES-
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MPCMM0002 CMM—Rear Connections
column (1-12).
Table 7.
Power Connector Pinouts Matrix
E
D
C
B
A
1
2
-48V_A
-48V_A
-48_A_RTN_MLBF
-48V_B
-48V_B
3
-48_A_RTN
GND
-48_A_RTN
GND
-48_B_RTN_MLBF
GND
4
-48_B_RTN
PWRALRM_NO
MJR+
-48_B_RTN
PWRALRM_COM
MJR-
5
6
7
MNR_NO
MNR_COM
MNR_NC
MJR_NO
MJR_COM
MJR_NC
CRT_NO
8
9
CRT_COM
CRT_NC
10
11
12
MNR+
MNR-
SGND
SGND
receptacle and for the header) show the physical locations of the pins identified by pin
code.
Table 8.
Pin Staging
Mating
Length
Tail
Order
Pin Code
19
Length
First Mate
8 mm
4.3mm
Second Mate
Third Mate
Fourth Mate
Last Mate
Empty
7.25 mm
6.5 mm
5.75 mm
5 mm
4.3mm
4.3mm
4.3mm
4.3mm
4
3
2
1
Table 9.
Power Connector Receptacle Pin Placement (Sheet 1 of 2)
E
D
C
B
A
1
2
3
4
4
4
4
4
1
1
3
3
3
3
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Rear Connections—MPCMM0002 CMM
Table 9.
Power Connector Receptacle Pin Placement (Sheet 2 of 2)
E
D
C
B
A
5
6
4
2
2
2
4
2
2
2
4
2
2
2
2
2
7
8
2
2
9
10
11
12
2
2
19
19
Table 10.
Power Connector Header Pin Placement
A
B
C
D
E
1
2
1
1
4
2
2
2
4
4
4
2
2
2
4
4
4
2
2
2
3
3
3
4
3
3
5
6
2
2
7
8
2
2
9
10
11
12
2
2
19
19
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Rear Connections—MPCMM0002 CMM
Data Connector Pinouts (Sheet 1 of 2)
Table 11.
Signal Name
Count Type
Description
Pin Name From Table 12
BP_AFT1
BP_AFT2
BP_AFTREF
1
1
1
I
I
I
Filter tray ambient temperature thermistor A
Filter tray ambient temperature thermistor B
Filter tray ambient temperature thermistor return
E16
E17
E18
Filter tray status tri-color LED control. Bit 1
BP_AFLED[1:2]
BP_AFPRES#
2
1
O
I
E19, E20
E21
controls the red LED. Bit 2 controls the green LED.
Filter tray presence. This signal is pulled up to
+3.3V and is de-bounced by software.
RP_ENET1_LNK#
RP_ENET1_ACT#
RP_ENET1_SPD#
RP_ENET2_LNK#
RP_ENET2_ACT#
RP_ENET2_SPD#
1
1
1
1
1
1
O
O
O
O
O
O
Ethernet port 1 to RTM Link LED drive
Ethernet port 1 to RTM Activity LED drive
Ethernet port 1 to RTM speed indicator
Ethernet port 2 to RTM Link LED drive
Ethernet port 2 to RTM Activity LED drive
Ethernet port 2 to RTM speed indicator
A29
A30
A31
B29
B30
B31
Control signals for ShFRU status tri-color LED 1.
Bit 0 controls the red LED. Bit 1 controls the green
LED.
FRU0_STATUS[0:1]
FRU1_STATUS[0:1]
PWRSW[1:2]
1
1
2
O
O
I
D30, D31
C30, C31
E30, E31
Control signals for ShFRU status tri-color LED 2.
Bit 0 controls the red LED. Bit 1 controls the green
LED.
Power switch input A or B from system power on/
off switch. These two signals have to be
debounced by software.
BP_N_SCL[0..15]A and B
BP_N_SDA[0..15]A and B
BP_CF_SCL_A and B
BP_CF_SDA_A and B
BP_SH_SCL_A and B
BP_SH_SDA_A and B
BP_RED_SCL_A and B
BP_RED_SDA_A and B
BP_RP_SCL_A and B
BP_RP_SDA_A and B
BP_SP_SCL_A and B
BP_SP_SDA_A and B
BP_ENET1_TX0(+-)
BP_ENET1_RX0(+-)
BP_ENET2_TX0(+-)
BP_ENET2_RX0(+-)
BP_ENET1_TX1(+-)
BP_ENET1_RX1(+-)
BP_ENET2_TX1(+-)
BP_ENET2_RX1(+-)
32
32
2
OD
OD
OD
OD
OD
OD
OD
OD
OD
OD
OD
OD
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
Node IPMB clock
A2-A17, C2-C17
B2-B17, D2-D17
A18, C18
B18, D18
A19, C19
B19, D19
A20, C20
B20, D20
A21, C21
B21, D21
A22, C22
B22, D22
A33, B33
A35, B35
A37, B37
A39, B39
D33, E33
D35, E35
D37, E37
D39, E39
Node IPMB data
Chassis FRU IPMB clock
Chassis FRU IPMB data
2
2
Shared Bus IPMB clock
2
Shared Bus IPMB data
2
Redundant CMM IPMB serial clock
Redundant CMM IPMB serial data
Reserved IPMB clocks for RTM
Reserved IPMB data for RTM
RESERVED FOR FUTURE USE
RESERVED FOR FUTURE USE
Ethernet port 1 to RTM
2
2
2
2
2
2
2
Ethernet port 1 from RTM
Ethernet port 2 to RMT
2
2
Ethernet port 2 from RTM
Reserved for GbE to RTM
Reserved for GbE from RTM
Reserved for GbE to RTM
Reserved for GbE from RTM
2
2
2
2
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MPCMM0002 CMM—Rear Connections
Table 11.
Data Connector Pinouts (Sheet 2 of 2)
Signal Name
Count Type
Description
Pin Name From Table 12
CFG_STX
1
1
1
1
1
1
2
2
2
2
2
2
2
2
1
1
1
1
1
1
8
O
I
Serial transmit
A28
D28
CFG_SRX
Serial receive
CFG_SCTS
I
Serial clear to send
E28
CFG_SRTS
O
Serial request to send
C28
CFG_SDSR
I
Serial data set ready
E29
CFG_SDTR
O
Serial data terminal ready
Ethernet port 0 to switch
Ethernet port 0 from switch
Ethernet port 1 to switch
Ethernet port 1 from switch
Reserved for GbE to switch
Reserved for GbE from switch
Reserved for GbE to switch
Reserved for GbE from switch
Negotiate output to other CMM
Negotiate input from other CMM
Healthy output to other CMM
Healthy input from other CMM
Other CMM is present (0V)
Tie to ground
B28
BP_CMC_TX0(+-)
BP_CMC_RX0(+-)
BP_CMCX_TX0(+-)
BP_CMCX_RX0(+-)
BP_CMC_TX1(+-)
BP_CMC_RX1(+-)
BP_CMCX_TX1(+-)
BP_CMCX_RX1(+-)
BP_NGO
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
O
A41, B41
A43, B43
A45, B45
A 47, B47
D41, E41
D43, E43
D45, E45
D47, E47
E14
BP_NGOI
I
E15
BP_HLY#
O
E12
BP_HLYI#
I
E13
BP_PRESI#
I
E11
BP_PRES#
O
E10
GA[0:7]
I
Hardware Address
E2-E9
A1-E1, A23-C23, A32-E32,
C33, A34-E34, C35, A36-E36,
C37, A38-E38, C39, A40-E40,
C41, A42-E42, C43, A44-E44,
C45, A46-E46, C47, A48-E48
GND
61
I
I
Ground
Power to CDMs (shelf FRUs) and distribution
board
FRU_VCCA and B
2
E22, E23
RESV[1:11]
11
10
1
Reserved
A26-E26, A27-E27, D23
GPIO[1:10]
I
O
I
General Purpose Input Only
Inter CMM reset output to another CMM
Inter CMM reset input from another CMM
A24-E24, A25-E25
BP_CMM_RESET#
BP_CMM_RESETI#
C29
D29
1
and column (1-48).
Table 12.
Data Connector Pinouts Matrix (Sheet 1 of 3)
E
D
C
B
A
1
2
3
4
GND
GA0
GA1
GA2
GND
GND
GND
GND
BP_N_SDA_[1]_B
BP_N_SDA_[2]_B
BP_N_SDA_[3]_B
BP_N_SCL_[1]_B
BP_N_SCL_[2]_B
BP_N_SCL_[3]_B
BP_N_SDA_[1]_A
BP_N_SDA_[2]_A
BP_N_SDA_[3]_A
BP_N_SCL_[1]_A
BP_N_SCL_[2]_A
BP_N_SCL_[3]_A
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Rear Connections—MPCMM0002 CMM
Table 12.
Data Connector Pinouts Matrix (Sheet 2 of 3)
E
D
BP_N_SDA_[4]_B
BP_N_SDA_[5]_B
BP_N_SDA_[6]_B
BP_N_SDA_[7]_B
BP_N_SDA_[8]_B
BP_N_SDA_[9]_B
BP_N_SDA_[10]_B
BP_N_SDA_[11]_B
BP_N_SDA_[12]_B
BP_N_SDA_[13]_B
BP_N_SDA_[14]_B
BP_N_SDA_[15]_B
BP_N_SDA_[16]_B
BP_CF_SDA_B
BP_SH_SDA_B
BP_RED_SDA_B
BP_RP_SDA_B
BP_SP_SDA_B
Reserved for future use
GPIO4
C
B
A
5
GA3
GA4
GA5
GA6
GA7
BP_N_SCL_[4]_B
BP_N_SCL_[5]_B
BP_N_SCL_[6]_B
BP_N_SCL_[7]_B
BP_N_SCL_[8]_B
BP_N_SCL_[9]_B
BP_N_SCL_[10]_B
BP_N_SCL_[11]_B
BP_N_SCL_[12]_B
BP_N_SCL_[13]_B
BP_N_SCL_[14]_B
BP_N_SCL_[15]_B
BP_N_SCL_[16]_B
BP_CF_SCL_B
BP_SH_SCL_B
BP_RED_SCL_B
BP_RP_SCL_B
BP_SP_SCL_B
GND
BP_N_SDA_[4]_A
BP_N_SDA_[5]_A
BP_N_SDA_[6]_A
BP_N_SDA_[7]_A
BP_N_SDA_[8]_A
BP_N_SDA_[9]_A
BP_N_SDA_[10]_A
BP_N_SDA_[11]_A
BP_N_SDA_[12]_A
BP_N_SDA_[13]_A
BP_N_SDA_[14]_A
BP_N_SDA_[15]_A
BP_N_SDA_[16]_A
BP_CF_SDA_A
BP_SH_SDA_A
BP_RED_SDA_A
BP_RP_SDA_A
BP_SP_SDA_A
GND
BP_N_SCL_[4]_A
BP_N_SCL_[5]_A
BP_N_SCL_[6]_A
BP_N_SCL_[7]_A
BP_N_SCL_[8]_A
BP_N_SCL_[9]_A
BP_N_SCL_[10]_A
BP_N_SCL_[11]_A
BP_N_SCL_[12]_A
BP_N_SCL_[13]_A
BP_N_SCL_[14]_A
BP_N_SCL_[15]_A
BP_N_SCL_[16]_A
BP_CF_SCL_A
BP_SH_SCL_A
BP_RED_SCL_A
BP_RP_SCL_A
BP_SP_SCL_A
GND
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
BP_PRES#
BP_PRESI#
BP_HLY#
BP_HLYI#
BP_NGO
BP_NGOI
BP_AFT1
BP_AFT2
BP_AFTREF#
BP_AFLED1
BP_AFLED2
BP_AFPRES
FRU_VCCA
FRU_VCCB
GPIO5
GPIO3
GPIO2
GPIO1
GPIO10
GPIO9
GPIO8
GPIO7
GPIO6
RESV5
RESV4
RESV3
RESV2
RESV1
RESV10
RESV9
RESV8
RESV7
RESV6
CFG_SCTS
CFG_SDSR
BP_PWRSW1
BP_PWRSW2
GND
CFG_SRX
CFG_SRTS
CFG_SDTR
CFG_STX
BP_CMM_RESETI#
BP_FRU0_STATUS0
BP_FRU0_STATUS1
GND
BP_CMM_RESET#
BP_FRU1_STATUS0
BP_FRU1_STATUS1
GND
RP_ENET2_LNK#
RP_ENET2_ACT#
RP_ENET2_SPD#
GND
RP_ENET1_LNK#
RP_ENET1_ACT#
RP_ENET1_SPD#
GND
RP_ENET1_TX1-
GND
RP_ENET1_TX1+
GND
GND
RP_ENET1_TX0-
GND
RP_ENET1_TX0+
GND
GND
RP_ENET1_RX1-
RP_ENET1_RX1+
GND
RP_ENET1_RX0-
RP_ENET1_RX0+
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MPCMM0002 CMM—Rear Connections
Table 12.
Data Connector Pinouts Matrix (Sheet 3 of 3)
E
D
C
B
A
36
37
38
39
40
41
42
43
44
45
46
47
48
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
RP_ENET2_TX1-
GND
RP_ENET2_TX1+
GND
RP_ENET2_TX0-
GND
RP_ENET2_TX0+
GND
RP_ENET2_RX1-
GND
RP_ENET2_RX1+
GND
RP_ENET2_RX0-
GND
RP_ENET2_RX0+
GND
BP_CMC_TX1-
GND
BP_CMC_TX1+
GND
BP_CMC_TX0-
GND
BP_CMC_TX0+
GND
BP_CMC_RX1-
GND
BP_CMC_RX1+
GND
BP_CMC_RX0-
GND
BP_CMC_RX0+
GND
BP_CMCX_TX1-
GND
BP_CMCX_TX1+
GND
BP_CMCX_TX0-
GND
BP_CMCX_TX0+
GND
BP_CMCX_RX1-
GND
BP_CMCX_RX1+
GND
BP_CMCX_RX0-
GND
BP_CMCX_RX0+
GND
Table 13.
Pin Staging
Order
Mating Length
Tail Length
Pin Code
First Mate
Second Mate
Third Mate
Fourth Mate
Last Mate
Empty
8mm
4.3mm
4.3mm
4.3mm
4.3mm
4.3mm
19
4
7.25mm
6.5mm
5.75mm
5mm
3
2
1
2
All the IPMB and I C ports are wired in parallel between the two CMMs.
CMM is connected to NGOI on the other CMM.
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Rear Connections—MPCMM0002 CMM
Figure 16.
Cross-Connected CMM Signals
CMM 1
NGO
Backplane
CMM 2
NGO
NGOI
NGOI
HLY#
HLY#
HLYI#
HLYI#
PRES#
PRESI#
PRES#
PRESI#
7.2
Guide Post
Figure 17.
Guide Post to Backplane
7.3
CMM Redundancy
When a chassis is powered up, the CMM determines which of the two CMMs is initially
active. Once the CMM firmware is loaded, it runs an algorithm to determine which CMM
®
is healthier—see the Intel NetStructure MPCMM0001 Chassis Management Module
®
and Intel NetStructure MPCMM0002 CMM Software Technical Product Specification for
more information.
During chassis initialization, the active CMM is the first one that meets the following
criteria:
• NGOI is not asserted low, which would indicate the other CMM is already active.
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MPCMM0002 CMM—Rear Connections
• BD_SEL# bit is set low indicating the CMM is properly inserted.
• OSL bit is set high indicating the OS is loading.
If one CMM detects an internal failure that cannot be corrected through software, it will
deassert its HLY# signal. If the faulty CMM is the active CMM, the standby CMM
becomes the active CMM as soon as it sees the HLYI# signal rise. HLY# de-asserts for
the following reasons: board removal, power goes unstable, watchdog timer fires,
board reset, OSL bit is de-asserted by firmware, or software sets fail bit.
Similarly, if one CMM is removed, its PRES# signal on the backplane will no longer be
held low and the other CMM will see a high PRESI# signal. Hardware on that CMM
quickly negotiates for it to become the active CMM.
In an active-standby mode, a communications path between the two CMMs over both
IPMB and Ethernet is needed for full synchronization.
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Chassis Data Modules (CDMs)—MPCMM0002 CMM
8.0
Chassis Data Modules (CDMs)
8.1
CDM Overview
The CDM (Shelf FRU) is a repository of chassis-specific information (such as serial
number of the chassis and backplane), capabilities of the system (number of slots,
maximum power per slot, whether dual star or mesh, etc.), and a few administrator-
definable configuration options. The latter category allows the administrator to define
more conservative limits than the maximum shelf ratings. For example, an
administrator could set the maximum power draw per feed to 30 A even if the shelf
itself were capable of handling 50 A per feed. CMMs use this information to provide
functions such as electronic keying (E-keying), controlling the power state of the
system, etc.
2
2
Figure 18.
Chassis Data Module I C Routing
CDM 1
CMM 1
CMM 2
CDM 2
8.2
CDM LED
The CMM drives a single tri-color LED to indicate the status of the module.
Table 14.
CDM Health LED States
Color
Description
Off
No power to chassis
Solid Green
Solid Red/Amber
Normal operation
Attention status (error condition) - CMM configures error color
8.3
CDM Management
2
The CMM expects the CDM to act like a simple 24C64 I C EEPROM device that the CMM
2
2
can read from and write to. CDM 1 is at I C address 0xA2 and CDM 2 is at I C address
0xA4. The CDMs are expected to store some limited configuration information, such as
the power-on state for each slot. The CDM contains the list of what slots are connected
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MPCMM0002 CMM—Chassis Data Modules (CDMs)
together, how the Update Channels are routed, how many slots are in the system, and
what is the maximum power to each slot or group of slots. The CDM provides the
information required of a shelf FRU as defined in the PICMG* 3.0 specification.
2
Only the CMMs can directly access the CDMs (via the dedicated I C buses).
8.4
8.5
CDM Power
The CDM is provided a dedicated power signal, which is a diode-OR’d 5 V output from
each of the CMMs. As long as one CMM has power, the CDM should operate. The CDM
should use a series resistor to lower the 5 V power input to 3.3 V for the I C EEPROM in
the CDM. I2C EEPROM should not be powered by 5V because I2C bus is pulled up at
3.3V. Maximum output current is 40mA limited by the 69.8ohm 1/8W series resistor
connected at the end of OR-ing diode. The 5V voltage regulator is rated for 3A. 40mA
load current for CDM power is insignificant to the output voltage change.
2
CDM Redundancy
The CMMs cache the information that is stored in the CDMs, so the CDMs are only
needed when the CMMs are first inserted or when the chassis is first turned on. The
CMMs can manage two CDMs to ensure that, if CDM 1 is corrupted or non-functional,
CDM 2 can provide the necessary information.
If a corrupted CDM is found, the CMM will log the error, raise an error condition to
upper-level software, and set an error condition on the CDM’s LED signals. The CMM
provides a command to update a replacement CDM with the cached information. From
this point forward, all changes are written to both CDMs.
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Front Panel—MPCMM0002 CMM
9.0
Front Panel
The front panel of the MPCMM0002 CMM has several connectors, as shown in
Figure 19.
CMM Front Panel
Each part of the front panel is described in more detail in the following sections.
9.1
Serial Port Pinouts
Each CMM has two serial ports; one goes to the front and one goes to the rear for an
RTM connection. An RJ-45 connector is used for the front cabling connection, in line
with common industry practice. Care should be taken to plug serial port cables into the
serial port jack (without LEDs) and not the Ethernet jacks (with LEDs).
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MPCMM0002 CMM—Front Panel
Figure 20.
Serial Port RJ-45 Connector
B5105-01
Figure 21.
Serial Port RJ-45 Cabling
Table 15.
RTM Serial Port Pinout
Pin
Signal
Description
1
2
3
4
5
RTS
DTR
TXD
GND
GND
Ready To Send
Data Terminal Ready
Transmit Data
Ground
Ground
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Front Panel—MPCMM0002 CMM
Table 15.
RTM Serial Port Pinout
Pin
Signal
Description
6
7
8
RXD
DSR
CTS
Receive Data
Data Set Ready
Clear To Send
9.2
Ethernet Port Pinouts
The CMM faceplate has two Fast Ethernet ports. The two Ethernet channels can be
switched via software to the backplane connections or the RTM connections, but the
default state is for the Ethernet ports to come out the front of the CMM. The
connections are RJ-45 connectors with integrated LEDs, such as the Speed Tech* P54-
111-1AX connector.
Figure 22.
Ethernet Port RJ-45 Connector Front View
Left LED Option
Right LED Option
TECH
Logo Area
B5104-01
Table 16.
Ethernet Port Pinouts
Pin Signal
Description
1
2
3
4
5
6
7
8
RP_CMMx_TXA+
Ethernet transmit, positive polarity
Ethernet transmit, negative polarity
Ethernet receive, positive polarity
Reserved, no connection
RP_CMMx_TXA-
RP_CMMx_RXA+
RSVD
RSVD
Reserved, no connection
RP_CMMx_RXA-
RSVD
Ethernet receive, negative polarity
Reserved, no connection
RSVD
Reserved, no connection
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MPCMM0002 CMM—Front Panel
There are two LEDs for each Ethernet port.
.
Table 17.
Ethernet Port LED States
LED (Color)
Status
Description
Off
10 Mbps Connection
100 Mbps Connection
No Link
Yellow LED
On
Off
Green LED
Blinking
Solid On
Transmission Activity
Link established, but no activity
9.3
Telco Alarm Connector
Many telecom facilities have existing alarm infrastructure. When an error condition
occurs, the alarm system activates an audible alarm, flashes lights to help technicians
locate the source of the alarm, and possibly interacts with a computer system that is
monitoring the facility. Error conditions are typically classified as minor, major, or
critical errors, and an LED identifies the current alarm state.
The telco alarm system consists of a distinct dry contact relay that corresponds to each
alarm state. These are open or closed depending on the state and are entirely under
software control (except power). The default is the no alarm state. The normally open
[NO], normally closed [NC], and common [COM] relay contacts are provided to the DB-
15 connector in line with existing industry practice. There are also reset inputs to clear
the minor and major alarm state.
Note:
There is no reset for the critical state.
There is an additional set of contacts (common [COM] plus normally open [NO]) that is
used to indicate a power system failure. There is no normally closed [NC] contact for
this relay nor is there a reset for clearing it.
The telco alarm contacts on the MPCMM0002 CMM comply with the alarm connector
requirements outlined in Section 2.7.7 of the PICMG* 3.0 specification.
Caution:
The RTM connections for the telco alarm connections are wired parallel to the
connections on the CMM faceplate. Do not connect cables to both the DB-15 connector
on the CMM and the corresponding RTM alarm connector at the same time.
The DB-15 is a standard DB-15 connector, such as a Tyco* V23529-S1101-C215
connector.
Figure 23.
DB-15 Telco Alarm Connector
The pinout for the DB-15 is shown below.
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Front Panel—MPCMM0002 CMM
Table 18.
Telco Alarm Pinout
Pin Description
Pin Description
1
2
3
4
5
6
7
8
MinorReset +
9
MinorAlarm - NC
MinorAlarm - COM
MajorAlarm - NO
MajorAlarm - NC
MajorAlarm - COM
PwrAlarm - NO
MinorReset -
10
11
12
13
14
MajorReset +
MajorReset -
CriticalAlarm - NO
CriticalAlarm - NC
CriticalAlarm - COM
MinorAlarm - NO
15
PwrAlarm - COM
The signals on the alarm connector can be up to –72 VDC. The relay handles currents
up to 1 A.
9.3.1
Cascading the Telco Alarm Connectors
The two telco alarm connectors can be wired independently to separate alarm controls
for maximum redundancy. Alternatively, the two connectors may be ganged together to
connect to a single alarm panel. Alarms that activate off the normally open [NO]
contacts should be wired together differently than the cable for normally closed [NC]
contacts.
Figure 24.
Telco Alarm Contact Wiring for Dual Connectors
Alarm
(Normally Open)
Normally Open
Normally Open
NO
Common
NO
Common
Common
CMM 1
CMM 2
Alarm
(Normally Closed)
Normally Closed
Normally Closed
NC
Common
NC
Common
Common
The interconnection diagram above shows how the two signals are wired under normal
circumstances. In a failure scenario such as a disconnected cable, however, only the
normally closed contact reports an error. This is identical to the behavior in a failure
scenario with a single telco alarm connector.
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MPCMM0002 CMM—Front Panel
Figure 25.
Failure Scenario with Dual Telco Alarm Connectors
MxxReset-
Input
Input
Note: MxxReset=
MajReset or MinReset
MxxReset+
CMM 1
CMM 2
Failure or Removal
MxxReset-
Input
Input
No Real Effect
MxxReset+
Telco alarm inputs from multiple connectors are wired parallel to each other. The
absence or failure of one connection will not affect the ability to recognize an input from
the other connection.
Note:
The CMM input signals use optocouplers on the reset signals to provide full electrical
isolation from the input signals.
Figure 26.
Parallel Inputs to Telco Alarm Connectors
MxxReset-
Input
Input
Input
MxxReset+
MxxReset-
CMM 1
CMM 2
Failure or Removal
Input
No Real Effect
MxxReset+
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Front Panel—MPCMM0002 CMM
goes to the facility’s alarm panel, while connectors B and C go to the RTM connectors
for CMM 1 and CMM 2.
Figure 27.
Cascaded Telco Alarm Cables
B
C
CMM 1
CMM 2
A
the CMMs that drive the telco alarm signals are normally kept synchronized, either of
the cables described in this table should work. However, choosing a cable that matches
the type of alarm in use, whether normally open or normally closed, also helps protect
against errors with the CMMs themselves.
Table 19.
Ganged Telco Alarm Cable Pinouts with Cabling
For Normally Open Alarms
Description B Pin
For Normally Closed Alarms
Description B Pin
MinorReset +
A Pin
C Pin
A Pin
C Pin
1
2
MinorReset +
MinorReset -
1
2
1
2
1
2
1
2
1
2
MinorReset -
3
MajorReset +
MajorReset -
CriticalAlarm - NO
CriticalAlarm - NC
-
3
3
3
MajorReset +
3
3
4
4
4
4
MajorReset -
4
4
5
5
5
5
CriticalAlarm - NO
CriticalAlarm - NC
CriticalAlarm - X
CriticalAlarm - COM
MinorAlarm - NO
MinorAlarm - NC
MinorAlarm - X
MinorAlarm - COM
MajorAlarm - NO
MajorAlarm - NC
MajorAlarm - X
MajorAlarm - COM
PwrAlarm - NO
PwrAlarm - COM
5
5
6
6
6
6
6
-
-
-
-
-
7
6
7
CriticalAlarm - COM
MinorAlarm - NO
MinorAlarm - NC
-
7
7
7
-
7
8
8
8
8
8
8
9
9
9
9
9
-
-
-
-
-
10
-
9
10
11
12
-
MinorAlarm - COM
MajorAlarm - NO
MajorAlarm - NC
-
10
11
12
-
10
11
12
-
10
11
12
-
10
11
-
11
12
13
-
12
13
14
15
13
14
15
MajorgAlarm - COM
PwrAlarm - NO
PwrAlarm - COM
13
14
15
13
14
15
13
14
15
14
15
9.4
Alarm Quiet Switch
The alarm quiet switch is located on the CMM faceplate. When the user presses the
alarm quiet switch, the CMM shuts off the alarm relays for a fixed period of time.
During the time alarm quiet is in effect, the front panel alarm LEDs flash. If the quiet
interval is exceeded without resolving the alarms, the alarms will be re-initiated.
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MPCMM0002 CMM—Front Panel
If the alarm quiet switch is held in for more than five seconds, the processor on the
CMM is reset. This is functionally equivalent to ejecting and re-inserting the CMM in the
chassis.
9.5
LEDs
Figure 28 shows the LEDs on the front panel of the MPCMM0002 module.
Figure 28.
CMM Front Panel with Labels
9.5.1
Alarm LEDs
There are three alarm LEDs, corresponding to the minor (!), major (!!), and critical (!!!)
alarm states. The LEDs are amber when on. The meaning of each LED and state is
Table 20.
CDM Health LED States
LED (Symbol)
Status
Description
Off
On
No Minor Alarm active
Minor Alarm active
Minor Alarm
(!)
Flashing
Off
Minor Alarm active, but silenced
No Major Alarm active
Major Alarm
(!!)
On
Major Alarm active
Flashing
Off
Major Alarm active, but silenced
No Critical Alarm active
Critical Alarm
(!!!)
On
Critical Alarm active
Flashing
Critical Alarm active, but silenced
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Front Panel—MPCMM0002 CMM
9.5.2
Health LED
Each CMM maintains a single health LED (®) to indicate the status of the CMM.
Table 21.
CMM Health LED States
Color
Description
Off
No power to CMM
Solid Green
Blinking Green
Solid Red/Amber
Normal operation, power okay
CMM in standby mode
Attention status (error condition) - CMM configures error color
9.5.3
Hot Swap LED
Each CMM maintains a single blue Hot Swap LED (ÝÜ) to provide the status of the
Table 22.
CMM Hot Swap LED States
Color
Description
Off
In use
Long Blink
Solid Blue
Short Blink
Searching for CMM (900 ms on, 100 ms off)
Ready to remove
Preparing for extraction (100ms on, 900 ms off)
Note:
Service personnel should be trained to wait for the solid blue LED before removing the
CMM from the system.
9.5.4
User-Definable LEDs
Each CMM provides four LEDs (A, B, C, D) that can be controlled via the operator or via
software automatically interacting with the CMM. Each LED can be off, green, yellow, or
red.
During the boot process, the user LEDs sequentially blink off to indicate boot progress.
The user LEDs will be off by the time the CMM software is fully loaded. Once the CMM is
up, the administrator can control the LED through standard interfaces or via
programmatic control. Methods to control these LEDs are described in the Intel
®
®
NetStructure MPCMM0001 Chassis Management Module and Intel NetStructure
MPCMM0002 CMM Software Technical Product Specification.
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MPCMM0002 CMM—Grounding Considerations
10.0
Grounding Considerations
10.1
ESD Discharge Protection
The MPCMM0002 CMM has ESD discharge strips on its lower edge. Refer to Section 5.4,
“ESD Discharge Strip” on page 27 for more information.
10.2
Chassis Ground and Logic Ground
Section 4.2.3 of the PICMG 3.0 specification recommends that each FRU have a jumper
to tie logic ground and chassis ground together. On the MPCMM0002 CMM, this jumper
is accessible on Component Side 1 of the CMM near the ejector handle. Jumper J3 is
normally jumpered between pins 1 and 2, which means no connection; move the
jumper to connect pins 2 and 3 on J3 to connect these two grounds together. Refer to
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Thermals—MPCMM0002 CMM
11.0
Thermals
11.1
Processor Heat Sink
The MPCMM0002 CMM chassis management module has a heat sink on the 80321
processor to aid CMM cooling. This heat sink is a modified pin grid array as shown in
Figure 29.
CMM Heat Sink
This heat sink provides similar cooling results with either a vertical or horizontal airflow.
11.2
11.3
Module Orientation
The MPCMM0002 CMM module is designed to be installed in one of four orientations:
• Horizontal, with component side 1 up
• Horizontal, with component side 1 down
• Vertical, with component side 1 to the right
• Vertical, with component side 1 to the left
Module Airflow Path
Regardless of the orientation, the airflow to the MPCMM0002 CMM module must follow
one of two general patterns: front-to-back or side-to-side. Side-to-side airflow should
below.
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MPCMM0002 CMM—Thermals
Figure 30.
Side-to-Side Air Flow
The MPCMM0002 CMM module supports a front-to-back airflow path as well. This is
most useful when the CMM is installed perpendicular to the main subrack, such as
horizontally above or below a vertical subrack. Since there is no airflow through the
front panel or through most backplanes, chassis designers must ensure that they direct
sufficient airflow across the major components on the PCB, including the 80321
processor. While the front or rear 40 mm (1.5748 inches) on each CMM does not need
high airflow, chassis designers should ensure that the area between these regions is
guaranteed a proper airflow as defined in Section 11.4, “Airflow Requirements” on
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Thermals—MPCMM0002 CMM
Figure 31.
Front-to-Back Air Flow
It may be necessary to enclose the area around a CMM when cooled front-to-back to
ensure that air is properly channeled across the board and evenly distributed.
11.4
Airflow Requirements
Table 23.
Typical Airflow and Cooling Requirements
Category
Required LFM
CMMs
180 LFM (54.864 m/min)
3
Required CFM
5 CFM (0.1416 m /min) per CMM
Typical Heat Dissipation
Maximum Heat Dissipation
Approximate Airflow Resistance
21 W per CMM
28 W per CMM
0.2 in.-H O (~46 Pa)
2
11.5
Board Resistance Curve
As described in Chapter 5 of the PICMG* 3.0 specification, all board vendors are
required to provide a flow pressure curve for their board along with the airflow
requirements for specific wattages. This enables system integrators to compare the slot
resistance curves of their shelves with the resistance and airflow requirements of their
blades to approximate whether a given chassis can cool a particular blade.
The MPCMM0002 CMM is not subject to this requirement because the board is not an
AdvancedTCA standard form factor. Flow pressure curves will vary widely depending
upon location of the MPCMM0002 CMM in a chassis and the type/amount of airflow
across the MPCMM0002 CMM at that location.
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MPCMM0002 CMM—Thermals
.
Table 24.
Airflow Guidelines
Minimum Air Flow
Air Temp Rise
3
3.3 cfm (0.0934 m /min)
15° C (59° F)
10° C (50° F)
3
4.9 cfm (0.1388 m /min)
11.6
Thermal Sensors
Proper thermal design is critical to the successful deployment of the MPCMM0002 CMM
chassis management module. In the event sufficient airflow is not provided, the CMM
has three levels of thermal protection:
1. A thermal sensor near the main processor (wired to ADM1026) and internal sensors
in ADM1026 are monitored by software, which then shuts down the CMM if
necessary.
2. A dedicated thermal circuit tells the power brick to shut off power to the rest of the
board if it detects an even higher temperature on the board.
3. Finally, the power converter shuts itself off if it gets too hot.
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Management Module Specifications—MPCMM0002 CMM
12.0
Management Module Specifications
12.1
Feature Summary
®
Key carrier-grade features of the Intel NetStructure MPCMM0002 CMM include the
following:
• Full shelf management controller and shelf manager capability as defined in the
PICMG 3.0 specification with support for up to 16 board slots in an AdvancedTCA*
chassis.
• Hybrid dual IPMB star topology support for improved reliability, security, and
throughput.
• Slim 4U x 282.5 mm x 3HP size to simplify integration into chassis.
• Comprehensive management interfaces including CLI, SNMP, RPC, and RMCP.
• Dual 10/100 Mbps Ethernet controllers front, rear, or on the backplane.
• Dual serial ports (one out front, one out the RTM) for local console support.
• Isolated telecom alarm connections front or rear to connect to standard telecom
alarms.
• Direct –48 VDC inputs with on-board power regulation for maximum uptime.
• Low power design, using less than 30 W.
• High-temperature design to allow incoming air as hot as 70° C (158° F) with the
proper airflow.
• Dedicated communication paths between dual CMMs for active-standby operation.
• Support for CDMs (chassis FRU modules), fan trays, PEMs, and external
temperature sensors.
• Integrated backing plate to help meet the full range of standard NEBS tests,
including earthquake, fire, immunity, and safety.
®
®
• Intel 80321 processor with Intel XScale technology, 128 MBytes RAM, and 64
MBytes flash memory to provide headroom for future expansion and space for
custom user applications on board.
• Comprehensive software management capabilities, which are detailed in the Intel
®
®
NetStructure MPCMM0001 Chassis Management Module and Intel NetStructure
MPCMM0002 CMM Software Technical Product Specification for firmware
version 6.1.
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MPCMM0002 CMM—Management Module Specifications
12.2
Dimensions and Weight
Table 25.
Dimensions and Weight
Attribute
Value
177 mm (6.9685 inches) faceplate
144.5 mm (5.6890 inches) PCB
15.24 mm (0.6 inches) (3HP) faceplate
280 mm (11.0236 inches) PCB
0.9 kg (2.0 lbs)
Height
Width
Depth
Shipping Weight
12.3
Environmental Characteristics
Table 26.
Environmental Characteristics
Parameter
Conditions
Detailed Specification
Normal Operation: +5° C to +55° C (41°F to +131° F)
Transient Operation: –5° C to +70° C (23° F to +158° F)
Operating Ambient to CMM
Temperature
(Ambient)
Storage
Operating
Operating
Storage
-40° C to +70° C (-40° F to +158° F)
4000 meters (13123 ft)
Altitude
5-85% (90% short term) non-condensing
10-95% non-condensing
Humidity
0.5 G acceleration over 5-500 Hz sine wave (P-P), 0.5 oct/
min sine sweep
Operating - Sine
5 Hz to 20 Hz @ 0.01 g2/Hz
20 Hz to 500 Hz @ 0.02 g2/Hz
Operating - Random
Vibration
0.5 G acceleration over 5-50 Hz sine wave (P-P),
0.1 oct/min
3 G acceleration over 50-500 Hz sine wave (P-P),
0.25 oct/min sine sweep
Storage & Transport
Operating
5 G, trapezoidal 11-ms duration (system-level)
50 G, trapezoidal 11-ms duration (unpackaged board)
18in. drop test @ 167 in/sec acceleration (packaged board)
20 G, trapezoidal 11-ms duration (packaged. system)
Shock
Power
Storage and Transport
Operating Voltage Range
Power Dissipation
-39.5 VDC to –72 VDC
17 W typical, 28 W maximum
12.4
Product Reliability Estimate
supersede all other released Mean Time Between Failure (MTBF) and Failure in Time
(FIT) calculations of earlier report dates. The reported failure rates do not represent
catastrophic failure. Catastrophic failure rates will vary based on application
environment and features critical to the intended function.
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Management Module Specifications—MPCMM0002 CMM
Table 27.
Reliability Estimate Data
Reliability Measure
Value
Units
9
Failure Rate (FITs)
MTBF
8348.26
119,785
Failures in 10 hours
Hours
12.4.1
Assumptions and Notes
Environmental Assumptions
12.4.1.1
o
o
1. Failure rates are based on a 40 C (104 F) ambient temperature.
2. Applied component stress levels are 50 percent (voltage, current, and/or power).
3. Ground, fixed, controlled environment with an environmental adjustment factor
equal to 1.0.
12.4.1.2
12.4.1.3
General Assumptions
1. Component failure rates are constant.
2. Board-to-system interconnects included within estimates.
3. Non-electrical components (screws, mechanical latches, labels, covers, etc.) not
included within estimations.
4. Printed Circuit Board considered to have a 0 FIT rate.
General Notes
1. Method I, Case I = Based on “Parts Count”. Equipment failure is estimated by
totaling device failures rates and quantities used.
2. Quality Level II = Devices purchased to specifications, qualified devices, vendor lot-
to-lot controls for AQLs and DPMs.
3. Where available, direct component supplier predictions or actual FIT rates have
been utilized.
Note:
This report is provided as is with no warranties whatsoever, including any warranty of
merchantability, fitness for any particular purpose, or any warranty otherwise arising
out of any proposal, specification, or sample. Information in this document is provided
in connection with Intel products. No license, express or implied, by estoppel or
otherwise, to any intellectual property rights is granted by this document or by the sale
of Intel products. Except as provided in Intel’s Terms and Conditions of Sale for such
products, Intel assumes no liability whatsoever, and Intel disclaims any express or
implied warranty, relating to sale and/or use of Intel products including liability or
warranties relating to fitness for a particular purpose, merchantability, or infringement
of any patent, copyright or other intellectual property right. Intel products are not
intended for use in nuclear, medical, life saving, or life sustaining applications.
12.5
Agency Certifications
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MPCMM0002 CMM—Guidelines for Third Party Chassis Vendors
13.0
Guidelines for Third Party Chassis Vendors
®
This chapter describes some of the high level design of the Intel NetStructure
MPCMM0002 Chassis Management Module to help third party chassis vendors better
understand how to incorporate the CMM into their chassis.
Note:
The chapter excludes any low level design details of the individual components of the
Chassis Management Module or the CMM firmware. This chapter also does not explain
how to configure the CMM to work in a third party chassis. That information is
®
contained in the Intel NetStructure MPCMM0001 Chassis Management Module and
®
Intel NetStructure MPCMM0002 CMM Software Technical Product Specification for
version 6.1.
13.1
High Level Design
At a very high level, the CMM can be thought of as a black box, which has 42 IPMB
buses to allow a variety of bus topologies. The GPIO signals are for user-defined
purposes, and the dedicated I/O signals are used for certain dedicated functionality
explained later.
Figure 32 illustrates this high level CMM design.
Figure 32.
High Level CMM Design
10 GPIOs
CMM
Dedicated I/O
Signals
42 IPMB Buses
The figure below provides next level of details on how these pins are wired to different
components on the CMM hardware.
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Guidelines for Third Party Chassis Vendors—MPCMM0002 CMM
Figure 33.
I/O Signals of the CMM
Dedicated I/IO signals
SMBus
Analog Input 1
Analog Input 2
Analog Ground
CPU
ADM 1026
FPGA1
FPGA2
7 GPIOs
10 GPIOs
21 IPMB-A buses
21 IPMB-B buses
13.2
IPMB Buses
Figure 33 illustrates 42 IPMB buses emanating out of the two FPGAs, 21 buses from
each. Taken together, all buses are numbered 1 through 42. Buses numbered 1–21 are
IPMB-A buses implemented by FPGA1, and buses numbered 22–42 are IPMB-B buses
implemented by FPGA2. Though IPMB-A and IMPB-B bus pairs are intended to provide
redundancy, they could be used individually as well.
These buses can be configured to realize two basic IPMB bus topologies: radial and
shared. The actual usage model of these buses is ultimately up to the chassis designer.
Some possible usage scenarios have been listed in “Section 13.4.1, “Example
two basic bus topologies.
numbers, and connector information of the above-mentioned signals and buses. The 42
IPMB Buses are supported in all versions of firmware. The following table shows
mapping between the IPMB signal names and their corresponding physical bus number
as used by the CMM firmware.
Note:
The physical bus numbers are 1-based (starting from 1), however in the configuration
files (required for third party chassis integration) a 0-based (starting from 0)
numbering scheme is used.
Each IPMB bus consists of two signals usually named SDA (data) and SCL (clock). The
table below only refers to the data(SDA) signal for simplicity. Also please note that all
the IPMB buses appear in redundant pairs with one set of signals named as A and the
other set of signals as B. Hence physical bus number 1 consists of the pair of signals
BP_N_SDA_[1]_A/ BP_N_SCL_[1]_A and it’s corresponding redundant bus with
physical bus number 22 consists of the pair of signals BP_N_SDA_[1]_B/
BP_N_SCL_[1]_B.
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MPCMM0002 CMM—Guidelines for Third Party Chassis Vendors
Table 28.
Physical Bus Number Mapping
Physical
IPMB Signal
Physical
IPMB Signal
Bus Number
Bus Number
BP_N_SDA_[1]_A
BP_N_SDA_[2]_A
BP_N_SDA_[3]_A
BP_N_SDA_[4]_A
BP_N_SDA_[5]_A
BP_N_SDA_[6]_A
BP_N_SDA_[7]_A
BP_N_SDA_[8]_A
BP_N_SDA_[9]_A
BP_N_SDA_[10]_A
BP_N_SDA_[11]_A
BP_N_SDA_[12]_A
BP_N_SDA_[13]_A
BP_N_SDA_[14]_A
BP_N_SDA_[15]_A
BP_N_SDA_[16]_A
BP_CF_SDA_A
1
2
BP_N_SDA_[1]_B
BP_N_SDA_[2]_B
BP_N_SDA_[3]_B
BP_N_SDA_[4]_B
BP_N_SDA_[5]_B
BP_N_SDA_[6]_B
BP_N_SDA_[7]_B
BP_N_SDA_[8]_B
BP_N_SDA_[9]_B
BP_N_SDA_[10]_B
BP_N_SDA_[11]_B
BP_N_SDA_[12]_B
BP_N_SDA_[13]_B
BP_N_SDA_[14]_B
BP_N_SDA_[5]_B
BP_N_SDA_[16]_B
BP_CF_SDA_B
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
BP_SH_SDA_A
BP_SH_SDA_B
BP_RED_SDA_A
BP_RP_SDA_A
BP_RED_SDA_B
BP_RP_SDA_B
BP_SP_SDA_A
BP_SP_SDA_B
Among the 42 IPMB buses, two buses, 18 and 39 (signals BP_SH_SDA_A and
LTC4300 (IPMB bus isolator) part before making to the backplane. The IPMB bus
isolator allows detection of bus hangs. Intel highly recommends using these buses (in a
IPMB buses BP_RED_SDA_A/ BP_RED_SDA_B (physical bus number 19 and 40) are
reserved to be used as a dedicated redundant connection between two CMMs in the
chassis.
IPMB buses BP_CF_SDA_A/BP_CF_SDA_B (physical bus number 17 and 38) are
intended to be used as a dedicated redundant IPMB buses between CMMs and chassis
FRU.
IPMB buses BP_SP_SDA_A/BP_SP_SDA_B & BP_RP_SDA_A/BP_RP_SDA_B are
reserved for future use, however they can be configured by chassis vendors as any
general purpose IPMB buses in redundant or individual configuration.
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a
Figure 34.
Radial Bus Topology
Non-Intelligent FRUs
Fantray1
PEM1
ADM 1026
PEM1
ADM 1026
ADM 1026
i2C Bus
I2c Bus
Shelf FRU1
Shelf FRU2
I2c Bus
FPGAs
FPGAs
Standby ShMC
Active ShMC
ATCA
Board1
IPMC
ATCA
Board2
IPMC
IPMB A
IPMB B
2
a. The ADM1026 shown in the PEMs and the fan tray is just one possible I C controller that can be used.
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a
Figure 35.
Shared Bus Topology
Non-Intelligent FRUs
Fantray1
PEM1
ADM 1026
PEM1
ADM 1026
ADM 1026
i2C Bus
i2C Bus
Shelf FRU1
Shelf FRU2
i2C Bus
FPGAs
FPGAs
Standby ShMC
Active ShMC
IPMC
IPMC
IPMC
ATCA
ATCA
ATCA
Board1
Board2
BoardN
IPMB A
IPMB B
2
a. The ADM1026 shown in the PEMs and the fan tray is just one possible I C controller that can be used.
13.3
GPIO Pins
which can be configured by software for a set of predefined usage types such as
detecting presence of a device, controlling LEDs, controlling push buttons, and reading
single bit values for each pin. Limited support for configuration and use of dedicated I/
O Signals and 10 additional GPIO signals is available in firmware versions starting from
6.1. More details on configuration of these signals are available in the Intel
®
®
NetStructure MPCMM0001 Chassis Management Module and Intel NetStructure
MPCMM0002 CMM Software Technical Product Specification.
13.3.1
Dedicated I/O Pins
ten dedicated I/O pins:
• Seven are wired to the GPIO pins of FPGA1. These GPIOs can be reconfigured for
different uses. The corresponding signal names are: BP_AFLED[1:2], BP_AFPRES#,
FRU0_STATUS[0:1], and FRU1_STATUS[0:1]. A detailed description of these
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• Three are wired to the Analog Devices* Complete Thermal System Management
Controller ADM1026* on the CMM. Two of them (BP_AFT1 and BP_AFT2) can only
be used for temperature readings from two different thermistors (which may be
located anywhere on the chassis). These provide analog input via pins 35 (AIN6)
and 34 (AIN7). The third pin must be used for thermistor return (BP_AFTREF), and
is grounded via pin 21 (AGND) on the ADM1026.
13.4
Interfacing FRUs to the CMM
The MPCMM0002 CMM can communicate with intelligent and non-intelligent FRUs
sitting on any of the 42 IPMB buses. All 42 buses on the CMM are implemented on top
2
2
IPMB bus.
2
Depending on the requirements, one or more IPMB buses could be configured as I C
2
buses for non-intelligent FRUs. Any single bus can be configured as an IPMB or I C bus
via software. For intelligent FRUs, the bus must be configured as IPMB, and for non-
2
2
intelligent FRUs that support I C, the bus must be configured as I C. FRUs of either
type can either share a bus with other FRUs of the same kind or use a dedicated bus.
The following sub-sections explain how different types of intelligent and non-intelligent
FRUs can be connected to the Chassis Management Module on an AdvancedTCA
chassis.
13.4.1
Example Configurations
Section 13.2, “IPMB Buses” on page 63 discusses the two basic IPMB bus topologies,
radial and shared, that are supported by the Chassis Management Module. Following is
a list of examples which allow different combinations of these topologies. This is not an
exhaustive list of possible configurations, but just a few examples. The assumption
here is that there is a mix of intelligent and non-intelligent FRUs, but there are no
restrictions if a chassis consists of intelligent FRUs only. Also, for each of the example
configuration below, redundancy has been assumed for intelligent FRUs.
Note:
The following examples are only supported under firmware version 6.1 and above
through appropriate configuration files.
13.4.1.1
Example Chassis Configuration #1
• Bus #18/39, configured as IPMB, shared by all 16 blades (shared topology)
• Bus #1/22, configured as IPMB, shared by all intelligent PEMs and fan trays
• Bus #2/23, configured as IPMB, for inter-CMM communication
2
• Bus #3, configured as I C bus, used solely by FRU1
2
• Bus #24, configured as I C bus, used solely by FRU2
2
• Bus #5, configured as I C bus, shared by other non-intelligent FRUs
13.4.1.2
Example Chassis Configuration #2
• Bus #1–16, configured as IPMB, one bus dedicated for each of the 16 blades (radial
topology)
2
• Bus #17, configured as I C bus, shared by three non-intelligent fan trays
• Bus #18/39, configured as IPMB, shared by two PEMs
• Bus #19/40, configured as IPMB, for inter-CMM communication
2
• Bus #20, configured as I C bus, used solely by FRU1
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2
• Bus #41, configured as I C bus, used solely by FRU2
13.4.1.3
Example Chassis Configuration #3
• Bus #18/39, configured as IPMB, shared by all 16 blades (shared topology)
2
• Bus #1, configured as I C, shared by two PEMs
2
• Bus #2, configured as I C bus, shared by three non-intelligent fan trays
• Bus #3/24, configured as IPMB, for inter-CMM communication
2
• Bus #4, configured as I C bus, used solely by FRU1
2
• Bus #25, configured as I C bus, used solely by FRU2
2
• Bus #6, configured as I C bus, shared by three Maxim/Dallas Semiconductor DS75
temperature sensors
13.5
13.6
Intelligent FRUs
All intelligent FRUs must have support for an IPM controller (IPMC), and must be able
to respond to AdvancedTCA-specific IPMI commands as mandated by the AdvancedTCA
and IPMI specifications.
2
Non-Intelligent FRUs with I C* Support
Similar to intelligent FRUs, non-intelligent FRUs can be hooked on a shared bus or a
dedicated bus. However, no redundancy is possible.
The Chassis Management Module supports two kinds of non-intelligent FRUs that have
2
I C support: those based on the ADM1026 controller and those based on the two-wire
serial interface.
13.6.1
FRUs Based on the ADM1026
The ADM1026 is a versatile system hardware monitor chip which has multiple GPIO
inputs. These are analog inputs to measure and control different system parameters.
GPIO pins shown in the ADM1026 can be accessed via registers. The CMM reads from
and/or writes to these registers depending on the usage of the pins. One of the GPIO
pins on the CMM is used to detect presence of the fan tray. Similar to the fan trays,
non-intelligent PEMs could also be based on the ADM1026.
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Guidelines for Third Party Chassis Vendors—MPCMM0002 CMM
Figure 36.
FRU That Uses the ADM1026
Monitor fan voltage for all 3
fans
AIN(3) AIN(4) AIN(5) PWM
IPMB-A[1] SDA
I2c Data
Fan1 Tach
SDA
FANTK0/GPIO0
FPGA1
I2c Clock
IPMB-A[1] SDA
SCL
Fan2 Tach
Fan3 Tach
FANTK1/GPIO1
HS Button
HS LED
GPIO9
FANTK2/GPIO2
GPIO10
CMM
ADM 1026
Health LED
User LED1
User LED2
GPIO11
GPIO12
GPIO13
FPGA2
GPIO 1
Fan Tray Presence
signal
13.6.2
13.7
Two-Wire Serial Interface Based
FRUs such as sensors, EEPROMs, or similar devices that have support for the two-wire
2
2
serial bus (I C) can be hooked on shared or dedicated I C buses. Examples are the
Atmel* AT24C64/16 EEPROMs and the DS75 temperature sensor.
2
Non-Intelligent FRUs without I C Support
The GPIO pins and (if needed) the dedicated I/O pins of the CMM can be used to allow
2
FRUs that do not support the I C bus to communicate with the CMM. For example, the
air filter tray used on the Intel NetStructure MPCHC0001 chassis communicates with
are used to control the LED and to detect the presence of the filter tray. Also, readings
from two temperature sensors (thermistors) on the filter tray are wired to the
ADM1026 on the CMM board.
13.8
FRU Data Storage for Non-Intelligent Devices
Version 6.1 of the CMM firmware for the MPCMM0002 currently supports the Atmel
Corporation* AT24C64 or AT24C16 EEPROMs and the Microchip Technology* 24LC256
EEPROM for the storage of FRU data on any non-intelligent device in the chassis. In
particular, the chassis FRU data must be stored on one of these EEPROMs, each of
which can store up to 8 kilobytes of data.
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MPCMM0002 CMM—Guidelines for Third Party Chassis Vendors
13.9
Controllers and I/O Ports for Non-Intelligent Devices
Version 6.1 of the CMM firmware for the MPCMM0002 supports the Analog Devices*
ADM1026 and the Philips Semiconductors* PCA9555 devices for communicating with
non-intelligent power entry modules (PEMs), fan trays, and any other devices that are
fronted by the CMM.
13.10
Temperature Sensors Fronted by the CMM
The CMM firmware for the MPCMM0002 supports the Dallas Semiconductor* DS75
Digital Thermometer and Thermostat. All temperature sensors in the chassis that are
not part of an intelligent device must be implemented using the DS75 or a compatible
device.
13.11
Related Documents
included in a third party chassis.
Table 29.
Related Documents
Document Name
Revision
Location
Analog Devices* Complete
Thermal System
Management Controller
ADM1026* Data Sheet
A
Philips Semiconductors*
PCA9555 16-bit I C and
SMBus I/O Port with
Interrupt Data Sheet
2
30
Maxim*/Dallas
Semiconductor* DS75
2-Wire Communication
SDA Hold Time Clarification
Application Note
June 21,
2004
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Warranty Information—MPCMM0002 CMM
14.0
Warranty Information
14.1
Intel NetStructure® Compute Boards & Platform Products
Limited Warranty
Intel warrants to the original owner that the product delivered in this package will be
free from defects in material and workmanship for two (2) year(s) following the latter
of: (i) the date of purchase only if you register by returning the registration card as
indicated thereon with proof of purchase; or (ii) the date of manufacture; or (iii) the
registration date if by electronic means provided such registration occurs within 30
days from purchase. This warranty does not cover the product if it is damaged in the
process of being installed. Intel recommends that you have the company from whom
you purchased this product install the product.
THE ABOVE WARRANTY IS IN LIEU OF ANY OTHER WARRANTY, WHETHER EXPRESS,
IMPLIED OR STATUTORY, INCLUDING, BUT NOT LIMITED TO, ANY WARRANTY OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, ANY WARRANTY OF
INFRINGEMENT OF ANY OTHER PARTY'S INTELLECTUAL PROPERTY RIGHTS, OR ANY
WARRANTY ARISING OUT OF ANY PROPOSAL, SPECIFICATION OR SAMPLE.
This warranty does not cover replacement of products damaged by abuse, accident,
misuse, neglect, alteration, repair, disaster, improper installation or improper 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 must use the original container (or
the equivalent) and pay the shipping charge. Intel may replace or repair the product
with either a new or reconditioned product, and the returned product becomes Intel's
property. Intel warrants the repaired or replaced product to be free from defects in
material and workmanship for a period of the greater of: (i) ninety (90) days from the
return shipping date; or (ii) the period of time remaining on the original two (2) year
warranty.
This warranty gives you specific legal rights and you may have other rights which vary
from state to state. All parts or components contained in this product are covered by
Intel's limited warranty for this product. The product may contain fully tested, recycled
parts, warranted as if new.
14.2
Returning a Defective Product (RMA)
Before returning any product, contact an Intel Customer Support Group to obtain either
a Direct
Return Authorization (DRA) or Return Material Authorization (RMA). Return Material
Authorizations are only available for products purchased within 30 days.
Return contact information by geography follows.
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MPCMM0002 CMM—Warranty Information
14.3
For the Americas
Return Material Authorization (RMA) credit requests e-mail address:
Direct Return Authorization (DRA) repair requests e-mail address:
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
14.3.1
For Europe, Middle East, and Africa (EMEA)
Return Material Authorization (RMA) e-mail address - [email protected]
Direct Return Authorization (DRA) for repair requests e-mail address:
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
14.3.2
For Asia and Pacific (APAC)
RMA/DRA requests email address: [email protected]
Telephone No.: 604-859-3111 or 604-859-3325
Fax No.: 604-859-3324
Office Hours: Monday - Friday 0800-1700 Malaysia time
Return Material Authorization (RMA) requests e-mail address:
Telephone No.: 81-298-47-0993 or 81-298-47-5417
Fax No.: 81-298-47-4264
Direct Return Authorization (DRA) for repair requests, contact the JPSS Repair center.
E-mail address: [email protected]
Telephone No.: 81-298-47-8920
Fax No.: 81-298-47-5468
Office Hours: Monday - Friday 0830-1730 Japan time
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Warranty Information—MPCMM0002 CMM
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
INTEL SHALL HAVE NO LIABILITY FOR ANY INDIRECT OR SPECULATIVE DAMAGES
(INCLUDING WITHOUT LIMITING THE FOREGOING, CONSEQUENTIAL, INCIDENTAL
AND SPECIAL DAMAGES) ARISING FROM THE USE OF OR INABILITY TO USE 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 THIS AGREEMENT
SHALL NOT EXCEED THE PRICE PAID FOR THE PRODUCT. THESE LIMITATIONS ON
POTENTIAL LIABILITIES WERE AN ESSENTIAL ELEMENT IN SETTING THE PRODUCT
PRICE. INTEL NEITHER ASSUMES NOR AUTHORIZES ANYONE TO ASSUME FOR IT ANY
OTHER LIABILITIES.
Some states do not allow the exclusion or limitation of incidental or consequential
damages, so the above limitations or exclusions may not apply to you.
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MPCMM0002 CMM—Customer Support
15.0
Customer Support
15.1
Customer Support
This chapter offers technical and sales assistance information for this product.
Information on returning an Intel NetStructure® product for service is in the following
chapter.
15.2
15.3
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
If you have a sales question, please contact your local Intel NetStructure Sales
Representative or the Regional Sales Office for your area. Address, telephone and fax
numbers, and additional information is available at Intel's web site located at:
Intel Corporation
Telephone (in U.S.) 1-800-755-4444
Telephone (Outside U.S.) 1-973-993-3030
FAX 1-973-967-8780
15.4
Product Code Summary
Table 30.
MPCMM0002 Product Code Summary
Product Code
MM#
Description
MPCMM0002
875468
Chassis Management Module (Slim Form Factor)
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Certifications—MPCMM0002 CMM
16.0
Certifications
The Intel NetStructure® MPCMM0002 Chassis Management Module has the following
approvals:
• UL/cUL 60950
• EN/IEC 60950
• EN55022 Class A
• EN55024
• FCC CFR47 Part 15 Class A
• VCCI
• AS/NZS3548
• BSMI
Hazardous substances:
• The Intel NetStructure® MPCMM0002 Chassis Management Module has been
verified to be compliant with the European Directive 2002/95/EC, officially titled
“The Restriction on the Use of Hazardous Substances (RoHS) in Electrical and
Electronic Equipment” or RoHS. Specifically, this product uses only RoHS compliant
parts and Pb-free solder and may take advantage of certain exemptions referenced
within the Directive.
16.1
Material Declaration Data Sheet
The following Material Declaration Data Sheet documents the Restrictions on Hazardous
Substance (RoHS) compliance for the Intel NetStructure® MPCMM0002 ATCA Chassis
Mangement Module MPCMM0002Q.
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MPCMM0002 CMM—Certifications
Material Declaration Data Sheet
Intel NetStructure® MPCMM0002 ATCA Chassis Management Module
MPCMM0002Q
Product Weight (grams):
Manufacturer:
revised:
561.7
Intel Corporation
4/3/2006
Pb Free Product:
yes
Restriction on Hazardous Substances (RoHS) Compliance
RoHS Definition
Quantity limit of 0.1% by mass (1000 PPM) for: Lead (Pb), Mercury, Hexavalent Chromium, Polybrominated Biphenyls (PBB), Polybrominated Diphenyl
Ethers (PBDE)
Quantity limit of 0.01% by mass (100 PPM) for: Cadmium
*
*
Intel understands RoHS requires: Lead and other materials banned in RoHS Directive are either (1) below all applicable substance thresholds as proposed by the
EU or (2) an approved/pending exemption applies. (Note: RoHS implementing details are not fully defined and may change.)
RoHS Declaration
Select the appropriate RoHS Declaration(s) from below.
The part does not contain RoHS restricted substances per the definition above.
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in solders to complete a viable electrical
connection between semiconductor die and carrier within integrated circuit Flip Chip packages.
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in optical and filter glass.
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in solders for servers, storage and storage array
systems, network infrastructure equipment for switching, signaling, transmission as well as network management for telecommunications.
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in high melting temperature type solders (i.e. tin-
lead sloder alloys containing more than 85% lead).
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in electronic ceramic parts
The part does contain RoHS substances per the definition above and uses the following exemption: Lead in glass of electronic components.
This part contains RoHS restricted materials (lead) above the threshold level. Exemption status cannot be determined since this part may be used in
exempt and/or non-exempt applications.
Other: Lead used in compliant pin connector systems
Where the part is declared to meet RoHS requirements, it has been verified to be in conformance with 2002/95/EC as we currently understand the requirements.
Intel has systems in place to verify conformance with all applicable environmental requirements and to the best of our knowledge the information is true and
correct.
LEVEL A MATERIALS AND SUBSTANCES
Materials from Annex A of the EIA/EICTA/JGPSSI Material Composition Declaration Guide and listed in the table below are not contained in this product in
quantities above the threshold level for these materials as stated in the EIA/EICTA/JGPSSI Material Composition Declaration Guide, nor intentionally added to
this product.
Asbestos
Mercury/Mercury Compounds
Polychlorinated Naphthalenes
Radioactive Substances
Azo colorants
Ozone Depleting Substances
Cadmium /Cadmium Compounds
Hexavalent Chromium
Hexavalent Chromium Compounds
Polybrominated Biphenyls (PBBs)
Polybrominated Diphenylethers (PBDEs)
Polychlorinated Biphenyls (PCBs)
Shortchain Chlorinated Paraffins
Tributyl Tin (TBT) and Triphenyl Tin (TPT)
Tributyl Tin Oxide (TBTO)
This product contains no lead/lead compounds.
Description of Use
Location in Product
Material Concentration (ppm)
LEVEL B MATERIALS AND SUBSTANCES
Antimony/Antimony Compounds
Bismuth/Bismuth Compounds
Brominated Flame Retardants
Nickel/Nickel Compounds
Arsenic/Arsenic Compounds
Beryllium/Beryllium Compounds
If this product contains materials listed in Annex B of the EIA/EICTA/JGPSSI Material Composition Declaration Guide above the threshold level of 1000 ppm
those materials/substances are listed below.
Material Concentration (ppm)
Description of Use
Location in Product
Material / Substance
at a board level
Nickel
Plating
Board top and back plates,
connectors
5500
COMMENTS
1
The data on Level A and B materials and substances are based on analytical testing of the following product:
MPCMM0002QBPP
Individual unit test results may vary due to differences in production and /or sensitivities of analytical testing methods. Data shown on this MDDS reflect part-level
testing intended to validate Intel's RoHS compliance systems. Intel's certification of RoHS compliance at the homogenous material level is based on Supplier
Declarations of Conformance.
2
3
4
5
This data sheet is based on the product specified and other products within the family are similar.
Data in parts per million (ppm) can be used to estimate content for other products within this family.
Material mass can be estimated by multiplying concentration (ppm) by product weight.
The remainder of this package consists of non-reportable metals (e.g., tin, iron, etc.), epoxy resin and other non-metal materials.
INTEL ACCEPTS NO DUTY TO UPDATE THIS MDDS OR TO NOTIFY USERS OF THIS MDDS OF UPDATES OR CHANGES TO THIS MDDS. INTEL SHALL
NOT BE LIABLE FOR ANY DAMAGES, DIRECT OR INDIRECT, CONSEQUENTIAL OR OTHERWISE, SUFFERED BY USER'S OR THIRD PARTIES AS A
RESULT OF THE USERS RELIANCE ON INFORMATION IN THIS MDDS THAT HAS BEEN UPDATED OR CHANGED.
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Agency Information—MPCMM0002 CMM
17.0
Agency Information
17.1
North America (FCC Class A)
FCC Verification Notice
This device complies with Part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) this device may not cause harmful interference, and (2) this device
must accept any interference received, including interference that may cause undesired
operation.
For questions related to the EMC performance of this product, contact:
Intel Corporation
5200 N.E. Elam Young Parkway
Hillsboro, OR 97124
1-800-628-8686
This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference when the equipment is operated in
a commercial environment. This equipment generates, uses, and can radiate radio
frequency energy if not installed and used in accordance with the instruction manual,
may cause harmful interference to radio communications. Operation of this equipment
in a residential area is likely to cause harmful interference in which case the use will be
required to correct the interference at his own expense.
17.2
Canada – Industry Canada (ICES-003 Class A) (English
and French-translated below)
CANADA – INDUSTRY CANADA
Cet appareil numérique respecte les limites bruits radioélectriques applicables aux
appareils numériques de Classe A prescrites dans la norme sur le matériel brouilleur:
“Appareils Numériques”, NMB-003 édictée par le Ministre Canadian des
Communications.
(English translation of the notice above) This digital apparatus does not exceed the
Class A limits for radio noise emissions from digital apparatus set out in the
interference-causing equipment standard entitled “Digital Apparatus,” ICES-003 of the
Canadian Department of Communications.
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MPCMM0002 CMM—Agency Information
17.3
Safety Instructions (English and French-translated below)
English
17.3.1
CAUTION: This equipment is designed to permit the connection of the earthed
conductor of the d.c. supply circuit to the earthing conductor at the equipment. See
installation instructions. If this connection is made, all of the following conditions must
be met:
-This equipment shall be connected directly to the DC supply system earthing electrode
conductor or to a bonding jumper from an earthing terminal bar or bus to which the DC
supply system earthing electrode conductor is connected.
-This equipment shall be located in the same immediate area (such as adjacent
cabinets) as any other equipment that has a connection between the earthed conductor
of the same DC supply circuit and the earthing conductor, and also the point of earthing
of the DC system. The DC system shall not be earthed elsewhere.
-The DC supply source shall be located within the same premises as this equipment.
-Switching or disconnecting devices shall to be in the earthed circuit conductor
between the DC source and the point of connection of the earthing electrode conductor.
17.3.2
French
Cet appareil est conçu pour permettre le raccordement du conducteur relié à la terre du
circuit d’alimentation c.c. au conducteur de terre de l’appareil. Cet appareil est conçu
pour permettre le raccordement du conducteur relié à la terre du circuit d’alimentation
c.c. au conducteur de terre de l’appareil. Pour ce raccordement, toutes les conditions
suivantes doivent être respectées:
- Ce matériel doit être raccordé directement au conducteur de la prise de terre du
circuit d’alimentation c.c. ou à une tresse de mise à la masse reliée à une barre omnibus
de terre laquelle est raccordée à l’électrode de terre du circuit d’alimentation c.c.
- Les appareils dont les conducteurs de terre respectifs sont raccordés au conducteur
de terre du même circuit d’alimentation c.c. doivent être installés à proximité les uns
des autres (p.ex., dans des armoires adjacentes) et à proximité de la prise de terre du
circuit d’alimentation c.c. Le circuit d’alimentation c.c. ne doit comporter aucune autre
prise de terre. matériel. - Il ne doit y avoir
– La source d’alimentation du circuit c.c. doit être située dans la même pièce que le
aucun dispositif de commutation ou de sectionnement entre le point de raccordement
au conducteur de la source d’alimentation c.c. et le point de raccordement à la prise de
terre.
17.4
Taiwan Class A Warning Statement
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MPCMM0002 CMM—Safety Warnings
18.0
Safety Warnings
Caution:
Review the following precautions to avoid personal injury and prevent damage to this
product or products to which it is connected. To avoid potential hazards, use the
product only as specified.
Read all safety information provided in the component product user manuals and
understand the precautions associated with safety symbols, written warnings, and
cautions before accessing parts or locations within the unit. Save this document for
future reference.
AC AND/OR DC POWER SAFETY WARNING: The AC and/or DC Power cord is the
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).
IMPORTANT: See installation instructions before connecting to the supply.
For AC systems, use only a power cord with a grounded plug and always make
connections to a grounded main. Each power cord must be connected to a dedicated
branch circuit.
For DC systems, this unit relies on the building's installation for short circuit (over-
current) protection. Ensure that a Listed and Certified fuse or circuit breaker no larger
than 72VDC, 15A is used on all current carrying conductors. For permanently
connected equipment, a readily accessible disconnect shall be incorporated in the
building installation wiring. For permanent connections, use copper wire of the gauge
specified in the system's user manual.
The enclosure provides a separate Earth ground connection stud. Make the Earth
ground connection prior to applying power or peripheral connections and never
disconnect the Earth ground while power or peripheral connections exist.
To reduce the risk of electric shock from a telephone or Ethernet* system, connect the
unit's main power before making these connections. Disconnect these connections
before removing main power from the unit.
RACK MOUNT ENCLOSURE SAFETY: This unit may be intended for stationary rack
mounting. Mount in a rack designed to meet the physical strength requirements of
NEBS GR-63-CORE and NEBS GR 487. Disconnect all power sources and external
connections prior to installing or removing the unit from a rack.
System weight may be minimized prior to mounting by removing all Hot Swappable
equipment. Mount your system in a way that ensures even loading of the rack. Uneven
weight distribution can result in a hazardous condition. Secure all mounting bolts when
rack mounting the enclosure.
Warning: Verify power cord and outlet compatibility: Use the appropriate power
cords for your power outlet configurations. Visit the following web site for additional
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Safety Warnings—MPCMM0002 CMM
Warning: Avoid electric overload, heat, shock, or fire hazard: Only connect the
system to a to a properly rated supply circuit as specified in the product user manual.
Do not make connections to terminals outside the range specified for that terminal. See
the product user manual for correct connections.
Warning: Avoid electric shock: Do not operate in wet, damp, or condensing
conditions. To avoid electric shock or fire hazard, do not operate this product with
enclosure covers or panels removed.
Warning: Avoid electric shock: For units with multiple power sources, disconnect all
external power connections before servicing.
Warning: Power supplies must be replaced by qualified service personnel
only.
Caution: System environmental requirements: Components such as Processor
Boards, Ethernet Switches, etc., are designed to operate with external airflow.
Components can be destroyed if they are operated without external airflow. External
airflow is normally provided by chassis fans when components are installed in
compatible chassis. Never restrict the airflow through the unit's fan or vents. Filler
panels or air management boards must be installed in unused chassis slots.
Environmental specifications for specific products may differ. Refer to product user
manuals for airflow requirements and other environmental specifications.
Warning: Device heatsinks may be hot during normal operation: To avoid burns,
do not allow anything to touch heatsinks.
Warning: Avoid injury, fire hazard, or explosion: Do not operate this product in an
explosive atmosphere.
Caution: Lithium batteries. There is a danger of explosion if a battery is incorrectly
replaced or handled. Do not disassemble or recharge the battery. Do not dispose of the
battery in fire. When the battery is replaced, the same type (CR2032) or an equivalent
type recommended by the manufacturer must be used. Used batteries must be
disposed of according to the manufacturer's instructions.
Warning: Avoid injury: This product may contain one or more laser devices that are
visually accessible depending on the plug-in modules installed. Products equipped with
a laser device must comply with International Electrotechnical Commission (IEC)
60825.
18.1
Mesures de Sécurité
Veuillez suivre les mesures de sécurité suivantes pour éviter tout accident corporel et
ne pas endommager ce produit ou tout autre produit lui étant connecté. Pour éviter tout
danger, veillez à utiliser le produit conformément aux spécifications mentionnées.
Lisez toutes les informations de sécurité fournies dans les manuels de l'utilisateur des
produits composants et veillez à bien comprendre les mesures associées aux symboles
de sécurité, aux avertissements écrits et aux mises en garde avant d'accéder à certains
éléments ou emplacements de l'unité. Conservez ce document comme outil de
référence.
AVERTISSEMENT CONCERNANT LA SÉCURITÉ DE L'ALIMENTATION C.A. ET/OU
C.C. : le câble d'alimentation C.A. et/ou C.C. constitue le dispositif de déconnexion
principal de l'alimentation électrique de l'unité et doit être facilement accessible à tous
moments. Les commutateurs de marche/arrêt C.A. et/ou C.C. et/ou les commutateurs
disjoncteurs auxiliaires permettent uniquement de contrôler l'alimentation (ET NON LA
DÉCONNEXION PRINCIPALE).
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IMPORTANT : reportez-vous aux instructions d'installation avant de connecter le bloc
d'alimentation.
Pour les systèmes C.A., utilisez uniquement un câble d'alimentation avec une prise de
terre et établissez toujours les connexions à une prise secteur mise à la terre. Chaque
câble d'alimentation doit être connecté à un circuit terminal dédié.
Pour les systèmes C.C., la protection de cette unité repose sur les coupe-circuits
(surintensité) du bâtiment. Assurez-vous d'utiliser un fusible ou un disjoncteur
répertorié et certifié ne dépassant pas 72 VCC et 15 A pour tous les conducteurs de
courant. Pour les équipements connectés en permanence, un sectionneur facilement
accessible doit être incorporé au câblage du bâtiment. Pour les connexions
permanentes, utilisez des câbles en cuivre d'un calibre conforme à celui spécifié dans le
manuel de l'utilisateur du système.
Le boîtier fournit un connecteur de mise à la terre séparé. Établissez la connexion à la
terre avant de mettre le système sous tension ou de connecter des périphériques.
Veillez à ne jamais déconnecter la mise à la terre tant que le système est sous tension
ou si des périphériques sont connectés.
Pour réduire le risque d'un choc électrique en provenance d'un téléphone ou d'un
système Ethernet*, connectez l'alimentation principale de l'unité avant d'établir ces
connexions. De même, déconnectez-les avant de couper l'alimentation principale de
l'unité.
SÉCURITÉ DU BOÎTIER POUR UN MONTAGE EN BAIE : cette unité peut être
destinée à un montage en baie stationnaire. Le montage en baie doit satisfaire aux
exigences sur la résistance physique des normes NEBS GR-63-CORE et NEBS GR 487.
Déconnectez toutes les sources d'alimentation et les connexions externes avant
d'installer ou de supprimer l'unité d'une baie.
Minimisez la masse du système avant le montage en retirant l'équipement permutable à
chaud. Assurez-vous que le système est réparti de manière uniforme sur la baie. Une
distribution inégale de la masse du système peut présenter des risques. Fixez tous les
boulons lors de l'installation du boîtier dans une baie.
Avertissement : vérifiez que le câble d'alimentation et la prise sont
compatibles. Utilisez les câbles d'alimentation correspondant à la configuration de vos
prises de courant. Pour de plus amples informations, visitez le site Web suivant : http:/
/kropla.com/electric2.htm.
Avertissement : évitez toute forme de surcharge, chaleur, choc électrique ou
incendie. Connectez uniquement le système à un circuit d'alimentation dûment
répertorié conformément aux spécifications du manuel de l'utilisateur du produit.
N'établissez pas de connexions à des terminaux en dehors des limites spécifiées pour ce
terminal. Reportez-vous au manuel de l'utilisateur du produit pour les connections
adéquates.
Avertissement : évitez les chocs électriques. N'utilisez pas ce produit dans des
endroits humides, mouillés ou provoquant de la condensation. Pour éviter tout risque
de choc électrique ou d'incendie, n'utilisez pas ce produit si les couvercles ou les
panneaux du boîtier ne sont pas en place.
Avertissement : évitez les chocs électriques. Pour les unités comportant plusieurs
sources d'alimentation, déconnectez toutes les sources d'alimentation externes avant
de procéder aux réparations.
Avertissement : les blocs d'alimentation doivent être remplacés
exclusivement par des techniciens d'entretien qualifiés.
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Attention : exigences environnementales du système : les composants tels que
les cartes de processeurs, les commutateurs Ethernet, etc., sont conçus pour
fonctionner avec un flux d'air externe. Les composants peuvent être détruits s'ils
fonctionnent dans d'autres conditions. Le flux d'air externe est généralement produit
par les ventilateurs des châssis lorsque les composants sont installés dans des châssis
compatibles. Veillez à ne jamais obstruer le flux d'air alimentant le ventilateur ou les
conduits de l'unité. Des boucliers ou des panneaux de gestion de l'air doivent être
installés dans les connecteurs inutilisés du châssis. Les spécifications
environnementales peuvent varier d'un produit à un autre. Veuillez-vous reporter au
manuel de l'utilisateur pour déterminer les exigences en matière de flux d'air et
d'autres spécifications environnementales.
Avertissement : les dissipateurs de chaleur de l'appareil peuvent être chauds
lors d'un fonctionnement normal. Pour éviter tout risque de brûlure, veillez à ce que
rien n'entre en contact avec les dissipateurs de chaleur.
Avertissement : évitez les blessures, les incendies ou les explosions. N'utilisez
pas ce produit dans une atmosphère présentant des risques d'explosion.
Attention : les batteries au lithium. Celles-ci peuvent exploser si elles sont
incorrectement remplacées ou manipulées. Veillez à ne pas désassembler ni à recharger
la batterie. Veillez à ne pas jeter la batterie au feu. Lors du remplacement de la
batterie, utilisez le même type de batterie (CR2032) ou un type équivalent
recommandé par le fabricant. Les batteries usagées doivent être mises au rebut
conformément aux instructions du fabricant.
Avertissement : évitez les blessures. Ce produit peut contenir un ou plusieurs
périphériques laser visuellement accessibles en fonction des modules plug-in installés.
Les produits équipés d'un périphérique laser doivent être conformes à la norme IEC
(International Electrotechnical Commission) 60825.
18.2
Sicherheitshinweise
Lesen Sie bitte die folgenden Sicherheitshinweise, um Verletzungen und
Beschädigungen dieses Produkts oder der angeschlossenen Produkte zu verhindern.
Verwenden Sie das Produkt nur gemäß den Anweisungen, um mögliche Gefahren zu
vermeiden.
Lesen Sie alle Sicherheitsinformationen in den Benutzerhandbüchern der zu dem
Produkt gehörenden Komponenten und machen Sie sich mit den Hinweisen zu den
Sicherheitssymbolen, schriftlichen Warnungen und Vorsichtsmaßnahmen vertraut, ehe
Sie Teile oder Stellen des Geräts anfassen. Bewahren Sie dieses Dokument gut auf, um
später darin nachlesen zu können.
SICHERHEITSWARNUNG FÜR WECHSELSTROM UND/ODER GLEICHSTROM: Die
Stromversorgung des Gerätes wird über das Wechselstrom- und/oder Gleichstromkabel
unterbrochen und muss daher jederzeit leicht zugänglich sein. Zusätzliche Ein-/Aus-
Schalter für Wechselstrom und/oder Gleichstrom und/oder Leistungsschalter dienen
lediglich der Steuerung der Stromversorgung (NICHT ABER DER UNTERBRECHUNG DER
STROMVERSORGUNG).
WICHTIG: Lesen Sie vor dem Anschließen der Stromversorgung die
Installationsanweisungen!
Wechselstromsysteme: Verwenden Sie nur ein Stromkabel mit geerdetem Stecker und
verbinden Sie dieses immer nur mit einer geerdeten Steckdose. Jedes Stromkabel
muss an einen eigenen Stromkreis angeschlossen werden.
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Gleichstromsysteme: Dieses Gerät basiert auf dem im Gebäude installierten Schutz vor
Kurzschlüssen (Netzüberlastung). Stellen Sie sicher, dass für alle stromführenden
Leiter eine zertifizierte Sicherung oder ein Leistungsschalter mit nicht mehr als 72V
Gleichstrom, 15A verwendet wird. Für Geräte, die ständig angeschlossen sind, sollte in
der Gebäudeverkabelung ein leicht zugänglicher Trennschalter installiert werden. Für
eine permanente Verbindung verwenden Sie Kupferdraht der im Benutzerhandbuch des
Systems angegebenen Stärke.
Das Gehäuse verfügt über einen eigenen Erdungs-Verbindungsbolzen. Stellen Sie die
Erdungsverbindung her, ehe Sie das Stromkabel oder Peripheriegeräte anschließen,
und trennen Sie die Erdungsverbindung niemals, so lange Strom- und
Peripherieverbindungen angeschlossen sind.
Um die Gefahr eines durch ein Telefon oder Ethernet*-System bedingten elektrischen
Schlags zu verringern, schließen Sie das Stromkabel des Geräts an, ehe Sie diese
Verbindungen einrichten. Trennen Sie diese Verbindungen, ehe Sie die
Hauptstromversorgung des Geräts unterbrechen.
SICHERHEITSHINWEISE BEI GESTELLMONTAGE: Dieses Gerät kann stationär in
einem Gestell angebracht werden. Das Gestell muss den Anforderungen an eine
physische Stärke laut NEBS GR-63-CORE und NEBS GR 487 entsprechen. Trennen Sie
vor der Installation oder dem Abbau des Geräts in einem Gestell alle Strom- und
externen Verbindungen.
Das Gewicht des Systems kann vor dem Einbau verringert werden, indem man alle
während des Betriebs austauschbaren Elemente entfernt. Achten Sie darauf, das
System so aufzustellen, dass das Gestell gleichmäßig belastet wird. Eine ungleiche
Verteilung des Gewichts kann gefährlich werden. Befestigen Sie alle Sicherungsbolzen,
wenn Sie das Gehäuse in einem Gestell montieren.
Warnung: Überprüfen Sie, ob Stromkabel und Steckdose kompatibel sind:
Verwenden Sie die Ihrer Stromkonfiguration entsprechenden Stromkabel. Weitere
Warnung: Vermeiden Sie elektrische Überlastung, Hitze, elektrischen Schlag
oder Feuergefahr: Schließen Sie das System nur an einen den Spezifikationen des
Produkt-Benutzerhandbuchs entsprechenden Stromkreis an. Stellen Sie keine
Verbindung zu Terminals her, die nicht den jeweiligen Spezifikationen entsprechen. Für
die korrekten Verbindungen siehe das Benutzerhandbuch des Produkts.
Warnung: Vermeiden Sie einen elektrischen Schlag: Unterlassen Sie den Betrieb
in nassen, feuchten oder kondensierenden Betriebsumgebungen. Um die Gefahr eines
elektrischen Schlags oder eines Feuers zu vermeiden, betreiben Sie dieses Produkt
nicht ohne Gehäuse oder Abdeckungen.
Warnung: Vermeiden Sie einen elektrischen Schlag: Trennen Sie bei Geräten mit
mehreren Stromquellen vor der Wartung alle externen Stromverbindungen.
Warnung: Netzteile dürfen nur von qualifizierten Servicemitarbeitern
ausgewechselt werden.
Vorsicht: Anforderungen an die Systemumgebung: Komponenten wie Prozessor-Boards,
Ethernet-Schalter usw. sind auf den Betrieb mit externer Luftzufuhr ausgelegt. Diese
Komponenten können bei Betrieb ohne externe Luftzufuhr beschädigt werden. Wenn die
Komponenten in einem kompatiblen Gehäuse installiert sind, wird Luft von außen normalerweise
durch Gehäuselüfter zugeführt. Blockieren Sie niemals die Luftzufuhr der Gerätelüfter oder -
ventilatoren. In ungenutzten Gehäusesteckplätzen müssen Füllelemente oder
Luftsteuerungseinheiten eingesetzt werden. Die Betriebsbedingungen können zwischen den
verschiedenen Produkten variieren. Für die Anforderungen an die Belüftung und andere
Betriebsbedingungen siehe die Benutzerhandbücher der jeweiligen Produkte.
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Warnung: Die Kühlkörper des Geräts können sich während des normalen
Betriebs erhitzen: Um Verbrennungen zu vermeiden, sollte jeder Kontakt mit den
Kühlkörpern vermieden werden.
Warnung: Vermeiden Sie Verletzungen, Feuergefahr oder Explosionen:
Unterlassen Sie den Betrieb dieses Produkts in einer explosionsgefährdeten
Betriebsumgebung.
Vorsicht: Lithiumbatterien. Bei unsachgemäßem Austausch oder Umgang mit
Batterien besteht Explosionsgefahr. Zerlegen Sie die Batterie nicht und laden Sie diese
nicht wieder auf. Entsorgen Sie die Batterie nicht durch Verbrennen. Beim Auswechseln
der Batterie muss dasselbe oder ein der Händlerempfehlung gleichwertiges Modell
verwendet werden (CR2032). Gebrauchte Batterien müssen entsprechend den
Anweisungen des Herstellers entsorgt werden.
Warnung: Vermeiden Sie Verletzungen: Dieses Produkt kann ein oder mehrere
Lasergeräte enthalten, die abhängig von den installierten Plug-In-Modulen optisch
zugänglich sind. Mit einem Lasergerät ausgestattete Produkte müssen der International
Electrotechnical Commission (IEC) 60825 entsprechen.
18.3
Norme di Sicurezza
Leggere le norme seguenti per prevenire lesioni personali ed evitare di danneggiare
questo prodotto o altri a cui è collegato. Per evitare qualsiasi pericolo potenziale, usare
il prodotto unicamente come indicato.
Leggere tutte le informazioni sulla sicurezza fornite nella guida per l'utente relativa al
componente e comprendere le norme associate ai simboli di pericolo, agli avvisi scritti e
alle precauzioni da adottare prima di accedere a componenti o aree dell'unità. Custodire
il presente documento per usi futuri.
AVVISO DI SICUREZZA RELATIVO ALL'ALIMENTAZIONE IN C.A. E/O C.C. Il cavo
di alimentazione in c.a. e/o c.c. rappresenta il dispositivo principale per interrompere
l'alimentazione in c.a. e/o c.c. dell'unità e deve sempre essere facilmente accessibile.
Gli interruttori di accensione/spegnimento ausiliari per l'alimentazione in c.a. e/o c.c.
hanno l'unico scopo di controllare l'alimentazione (NON INTERROMPONO
L'ALIMENTAZIONE PRINCIPALE).
IMPORTANTE: prima di collegare l'unità alla fonte di alimentazione, leggere le
istruzioni di installazione.
Per i sistemi CA, usare solo un cavo di alimentazione con una spina provvista di una
messa a terra e collegarsi sempre a prese provviste di una messa a terra. Ogni cavo di
alimentazione deve essere collegato ad un circuito derivato dedicato.
Per i sistemi CC, la presente unità può usufruire dell'eventuale installazione integrata
nell'edificio per la protezione contro i cortocircuiti (sovratensione). Assicurarsi della
presenza di un fusibile o di un circuito derivato non superiore a 72 V c.c., 15 A,
certificato e conforme alla normativa in vigore, in tutti i conduttori portanti. Per gli
apparecchi collegati in modo permanente, è necessario inserire nel circuito dell'edificio
un interruttore ad accesso immediato. Per i collegamenti permanenti, usare il filo di
rame del diametro specificato nella guida per l'utente relativa al sistema.
Il materiale fornito comprende un perno per il collegamento della messa a terra.
Assicurare il collegamento della messa a terra prima di alimentare l'unità o prima di
collegarla alle periferiche e non scollegare mai la messa a terra quando l'unità è
alimentata o collegata a periferiche.
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Per ridurre il rischio di scariche elettriche da parte della linea telefonica o dalla rete
Ethernet*, collegare l'unità all'alimentazione principale prima di effettuare tale
collegamento. Rimuovere i collegamenti prima di togliere l'alimentazione principale
all'unità.
NORME DI SICUREZZA PER LE UNITÀ MONTATE IN UN RACK. Questa unità può
essere alloggiata in modo permanente in un rack. Il montaggio in rack deve essere
conforme ai requisiti di resistenza fisica delle norme NEBS GR-63-CORE e NEBS GR
487.Prima di installare o rimuovere l'unità da un rack, rimuovere tutte le fonti di
alimentazione e i collegamenti esterni.
Prima di effettuare il montaggio, è possibile ridurre il peso complessivo del sistema
togliendo tutte le apparecchiature sostituibili a caldo. Montare il sistema in modo da
garantire una distribuzione uniforme del peso nel rack. Una distribuzione irregolare del
peso può essere pericolosa. Avvitare fino in fondo tutti i bulloni durante l'installazione
dell'unità in un rack.
Avvertenza: verificare il cavo di alimentazione e la compatibilità con la presa
di corrente. Usare i cavi di alimentazione compatibili con il tipo di presa di corrente.
electric2.htm.
Avvertenza: evitare sovraccarichi elettrici, calore diretto, scosse e possibili
cause di incendio. Collegare il sistema solo ad una rete elettrica la cui tensione
nominale corrisponda al valore indicato nella guida per l'utente. Non collegarlo a fonti di
alimentazione con valori di tensione esterne a quanto specificato per il sistema. Per
ulteriori informazioni sul corretto collegamento, consultare la guida per l'utente del
prodotto.
Avvertenza: evitare le scosse elettriche. Non usare l'apparecchio in ambienti umidi
o in presenza di condensa. Per evitare scosse elettriche o possibili cause di incendio,
non adoperare il prodotto senza le custodie o i pannelli appositi.
Avvertenza: evitare le scosse elettriche. Prima di intervenire su unità con più fonti
di alimentazione, rimuovere tutti i collegamenti all'alimentazione esterna.
Avvertenza: far sostituire i componenti di alimentazione solo da personale
tecnico qualificato.
Attenzione: rispettare i requisiti ambientali del sistema. I componenti come le
schede di processore, i commutatori Ethernet, ecc., sono progettati per funzionare in
presenza di un flusso di aria proveniente dall'esterno, in assenza del quale rischiano di
danneggiarsi irrimediabilmente. In genere, il flusso di aria esterno viene generato da
appositi ventilatori installati contemporaneamente ai componenti nello chassis
compatibile. Non ostacolare mai il flusso di aria convogliato dal ventilatore e dai
condotti dell'unità. I pannelli di copertura o le schede per il controllo dell'aria devono
essere installati negli alloggiamenti vuoti dello chassis. I requisiti ambientali possono
variare a seconda del prodotto. Per ulteriori informazioni sui requisiti del flusso di aria e
sugli altri requisiti ambientali, consultare la guida per l'utente del prodotto.
Avvertenza: i dissipatori di calore possono scaldarsi durante il funzionamento
normale. Per evitare bruciature o danni, evitare il contatto del dissipatore di calore con
qualsiasi altro elemento.
Avvertenza: evitare lesioni, possibili cause di incendio o di esplosione. Non
usare il prodotto in un'atmosfera in cui sussiste il rischio di esplosione.
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Attenzione: le batterie al litio. La sostituzione o l'uso non corretto della batteria
comporta un rischio di esplosione. Non smontare né ricaricare la batteria. Non gettare
la batteria nel fuoco. Per la sostituzione, usare il tipo di batteria identico (CR2032) o
equivalente consigliato dal costruttore. Le batterie usate devono essere smaltite
rispettando le istruzioni del costruttore.
Avvertenza: evitare le lesioni. Questo prodotto può contenere uno o più dispositivi
laser accessibili alla vista, a seconda dei moduli installati. I prodotti provvisti di un
dispositivo laser devono essere conformi alla norma 60825 della Commissione
elettrotecnica internazionale (IEC).
18.4
Instrucciones de Seguridad
Examine las instrucciones sobre condiciones de seguridad que siguen para evitar
cualquier tipo de daños personales, así como para evitar perjudicar el producto o
productos a los que esté conectado. Para evitar riesgos potenciales, utilice el producto
únicamente en la forma especificada.
Lea toda la información relativa a seguridad que se incluye en los manuales de usuario
de los distintos componentes y procure familiarizarse con los distintos símbolos de
seguridad, advertencias escritas y normas de precaución antes de manipular las
distintas piezas o secciones de la unidad. Guarde este documento para consultarlo en el
futuro.
AVISO DE SEGURIDAD SOBRE LA ALIMENTACIÓN DE CA O CC El cable de
alimentación de CA o CC constituye el dispositivo principal de desconexión de la
alimentación de CA o CC, y debe permanecer accesible en todo momento. Los
interruptores auxiliares de encendido y apagado de CA o CC y los disyuntores sólo
tienen una función de control de la alimentacion (Y NO LA DE DESCONEXIÓN
PRINCIPAL).
IMPORTANTE: Consulte las instrucciones de instalación antes de conectar la unidad a
la alimentación.
En el caso de sistemas de CA, utilice sólo cables de alimentación con enchufe con toma
de tierra, y realice siempre conexiones a una toma con toma de tierra. Cada uno de los
cables de alimentación deberá estar conectado a una derivación dedicada.
En el caso de sistemas de CC, la unidad dependerá de la instalación existente en el
edificio para la protección frente a cortocircuitos (sobreintensidades). Asegúrese de que
todos los conductores que transporten corriente empleen un fusible o disyuntor
homologado y certificado con una capacidad que no supere los 72V de CC ni 15A. En el
caso de los equipos que vayan a permanecer conectados de manera constante, en la
instalación eléctrica del edificio deberá estar incluida una desconexión de fácil acceso.
Para conexiones permanentes, emplee cable de cobre del calibre especificado en el
manual de usuario del sistema.
El chasis incluye aparte una clavija de conexión a tierra. Realice la conexión a tierra
antes de suministrar corriente o realizar cualquier tipo de conexión de periféricos; no
desconecte nunca la toma de tierra mientras la corriente esté presente o existan
conexiones con periféricos.
Para reducir los riesgos de descargas eléctricas a través de un teléfono o un sistema de
Ethernet*, conecte la alimentación principal de la unidad antes de realizar este tipo de
conexiones. Desconecte estas conexiones antes de desconectar la alimentación
principal de la unidad.
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PROCEDIMIENTOS DE SEGURIDAD PARA EL CHASIS DE MONTAJE EN
BASTIDOR: Esta unidad puede estar preparada para su montaje en un bastidor
estático. Un montaje de este tipo deberá realizarse en un bastidor que cumpla con los
requisitos de robustez de las normas NEBS GR-63-CORE y NEBS GR 487. Desconecte
cualquier tipo de alimentación y conexiones externas antes de instalar la unidad en un
bastidor o desmontarla.
Puede desmontar todos los equipos de intercambio en caliente para reducir el peso del
sistema antes del montaje en bastidor. Asegúrese de montar el sistema de forma que el
peso quede distribuido uniformemente en el bastidor. Una distribución irregular del
peso podría generar riesgos. Asegúrese de fijar todos los tornillos de montaje en el
bastidor.
Advertencia: Compatibilidad del cable y la toma: Utilice los cables adecuados para
la configuración de tomas de corriente con que cuente. Si necesita más información,
Advertencia: Evite sobrecargas eléctricas, calor y riesgos de descarga
eléctrica o incendio: Conecte el sistema sólo a un circuito de alimentación que tenga
el régimen apropiado, según lo especificado en el manual de usuario del producto. No
realice conexiones con terminales cuya capacidad no se ajuste al régimen especificado
para ellos. Consulte el manual de usuario del producto para que las conexiones que
realice sean las correctas.
Advertencia: Evite descargas eléctricas: No haga funcionar el sistema en
condiciones de humedad, mojado o si se produce condensación de la humedad. Para
evitar descargas eléctricas o posibles incendios, no permita que el aparato funcione con
sus tapas o paneles del chasis desmontados.
Advertencia: Evite descargas eléctricas: En el caso de unidades que cuenten con
varias fuentes de alimentación, desconecte las conexiones con alimentación externa
antes de proceder a realizar labores de mantenimiento.
Advertencia: La sustitución de fuentes de alimentación sólo debe ser realizada
por personal de mantemiento cualificado.
Precaución: Requisitos de entorno para el sistema: Los componentes del tipo de
placas de procesador, conmutadores de Ethernet, etc., están concebidos para funcionar
en condiciones que permitan el paso de aire. Los componentes pueden averiarse si
funcionan sin que circule el aire en su entorno. La circulación del aire suele estar
facilitada por los ventiladores incorporados en el armazón cuando los componentes
están instalados en armazones compatibles. Nunca interrumpa el paso del aire por los
ventiladores or los respiraderos. Los paneles de relleno y las placas para el control de la
circulación del aire deben instalarse en ranuras del chasis que no estén destinadas a
ningún otro uso. Las características técnicas relativas al entorno pueden variar entre
productos. Consulte los manuales de usuario del producto si necesita conocer sus
necesidades en términos de circulación de aire u otras características técnicas.
Advertencia: En condiciones de funcionamiento normales, los disipadores de
calor pueden recalentarse. Evite que ningún elemento entre en contacto con los
disipadores para evitar quemaduras.
Advertencia: Riesgos de daños, incendio o explosión: No permita que el aparato
funcione en una atmósfera que presente riesgos de explosión.
Precaución: Las baterías de litio. Si las baterías no se manipulan o cambian
correctamente, exite riesgo de explosión. No desmonte ni recargue la batería. Nunca
tire las baterías al fuego. Al cambiar la batería, es preciso utilizar el mismo tipo
(CR2032) o un tipo equivalente que haya sido recomendado por el fabricante. Las
baterías utilizadas deben desecharse según las instrucciones del fabricante.
Intel NetStructure® MPCMM0002 Chassis Management Module
Hardware TPS
88
July 2007
Order Number: 309247-004US
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Safety Warnings—MPCMM0002 CMM
Advertencia: Daños personales: Este producto puede contener uno o varios
dispositivos láser, que estarán a la vista dependiendo de los módulos enchufables que
se hayan instalado. Los productos provistos de un dispositivo láser deben ajustarse a la
norma 60825 de la International Electrotechnical Commission (IEC).
18.5
Chinese Safety Warning
Intel NetStructure® MPCMM0002 Chassis Management Module
Hardware TPS
July 2007
Order Number: 309247-004US
89
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MPCMM0002 CMM—Safety Warnings
Intel NetStructure® MPCMM0002 Chassis Management Module
Hardware TPS
90
July 2007
Order Number: 309247-004US
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Working page only. Do not distribute.
1.0 Document Organization.............................................................................................8
Acronyms and Terms......................................................................................... 10
2.0 Introduction............................................................................................................ 11
3.0 Getting Started........................................................................................................ 13
3.1 Installing the CMM............................................................................................. 13
4.0 Module Components ................................................................................................ 15
Serial Port UARTs.............................................................................................. 19
FPGA............................................................................................................... 20
Redundancy and Hot Swap CPLD......................................................................... 20
Real-Time Clock................................................................................................ 20
4.10 ADM1026 Controller .......................................................................................... 21
4.11 Hot Swap Controller........................................................................................... 21
4.12 Ride-Through Support........................................................................................ 21
4.13 IPMB Isolation Logic .......................................................................................... 21
5.0 Mechanical Information........................................................................................... 24
6.0 Backplane Considerations........................................................................................ 28
7.0 Rear Connections .................................................................................................... 32
CMM Redundancy.............................................................................................. 41
8.0 Chassis Data Modules (CDMs).................................................................................. 43
9.0 Front Panel.............................................................................................................. 45
Serial Port Pinouts............................................................................................. 45
Ethernet Port Pinouts......................................................................................... 47
Telco Alarm Connector....................................................................................... 48
10.0 Grounding Considerations ....................................................................................... 54
10.1 ESD Discharge Protection ................................................................................... 54
10.2 Chassis Ground and Logic Ground........................................................................ 54
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11.0 Thermals..................................................................................................................55
11.1 Processor Heat Sink ...........................................................................................55
11.2 Module Orientation.............................................................................................55
11.3 Module Airflow Path ...........................................................................................55
11.4 Airflow Requirements .........................................................................................57
11.5 Board Resistance Curve......................................................................................57
11.6 Thermal Sensors................................................................................................58
12.0 Management Module Specifications..........................................................................59
12.1 Feature Summary..............................................................................................59
12.2 Dimensions and Weight ......................................................................................60
12.3 Environmental Characteristics .............................................................................60
12.4 Product Reliability Estimate.................................................................................60
12.5 Agency Certifications..........................................................................................61
13.0 Guidelines for Third Party Chassis Vendors..............................................................62
13.1 High Level Design..............................................................................................62
13.2 IPMB Buses.......................................................................................................63
13.3 GPIO Pins .........................................................................................................66
13.4 Interfacing FRUs to the CMM ...............................................................................67
13.5 Intelligent FRUs.................................................................................................68
13.6 Non-Intelligent FRUs with I2C* Support................................................................68
13.7 Non-Intelligent FRUs without I2C Support .............................................................69
13.8 FRU Data Storage for Non-Intelligent Devices........................................................69
13.9 Controllers and I/O Ports for Non-Intelligent Devices ..............................................70
13.11 Related Documents............................................................................................70
14.0 Warranty Information..............................................................................................71
®
14.2 Returning a Defective Product (RMA)....................................................................71
14.3 For the Americas ...............................................................................................72
15.0 Customer Support....................................................................................................74
15.1 Customer Support..............................................................................................74
15.2 Technical Support and Return for Service Assistance ..............................................74
15.3 Sales Assistance................................................................................................74
15.4 Product Code Summary......................................................................................74
16.0 Certifications ...........................................................................................................75
16.1 Material Declaration Data Sheet...........................................................................75
17.0 Agency Information .................................................................................................77
17.1 North America (FCC Class A)...............................................................................77
17.3 Safety Instructions (English and French-translated below).......................................78
17.4 Taiwan Class A Warning Statement ......................................................................78
17.5 Japan VCCI Class A............................................................................................79
17.6 Korean Class A..................................................................................................79
17.7 Australia, New Zealand.......................................................................................79
18.0 Safety Warnings ......................................................................................................80
18.1 Mesures de Sécurité...........................................................................................81
18.3 Norme di Sicurezza............................................................................................85
18.4 Instrucciones de Seguridad .................................................................................87
18.5 Chinese Safety Warning......................................................................................89
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®
Top View of the Intel NetStructure MPCMM0002 CMM ................................................. 13
Intel® 80321 Processor Internal Block Diagram........................................................... 17
Dual Bus IPMB Isolation............................................................................................ 23
CMM Backing Plate Dimensions.................................................................................. 25
10 CMM ESD Strip Electrical Definition............................................................................. 27
11 Power System Block Diagram .................................................................................... 29
12 CDM Power Input..................................................................................................... 30
13 Ethernet Port Poaching ............................................................................................. 31
14 CMM Power Connector .............................................................................................. 32
15 CMM Data Connector................................................................................................ 36
16 Cross-Connected CMM Signals ................................................................................... 41
17 Guide Post to Backplane ........................................................................................... 41
18 Chassis Data Module I2C Routing............................................................................... 43
19 CMM Front Panel...................................................................................................... 45
20 Serial Port RJ-45 Connector....................................................................................... 46
21 Serial Port RJ-45 Cabling........................................................................................... 46
22 Ethernet Port RJ-45 Connector Front View................................................................... 47
23 DB-15 Telco Alarm Connector.................................................................................... 48
24 Telco Alarm Contact Wiring for Dual Connectors........................................................... 49
25 Failure Scenario with Dual Telco Alarm Connectors ....................................................... 50
26 Parallel Inputs to Telco Alarm Connectors.................................................................... 50
27 Cascaded Telco Alarm Cables..................................................................................... 51
28 CMM Front Panel with Labels ..................................................................................... 52
29 CMM Heat Sink ........................................................................................................ 55
30 Side-to-Side Air Flow................................................................................................ 56
31 Front-to-Back Air Flow.............................................................................................. 57
32 High Level CMM Design............................................................................................. 62
33 I/O Signals of the CMM............................................................................................. 63
34 Radial Bus Topology ................................................................................................. 65
35 Shared Bus Topology................................................................................................ 66
36 FRU That Uses the ADM1026 ..................................................................................... 69
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Chassis Elements Directly Driven by CMM Hardware......................................................31
Power Connector Pinouts...........................................................................................33
Pin Staging..............................................................................................................34
Power Connector Receptacle Pin Placement..................................................................34
10 Power Connector Header Pin Placement.......................................................................35
11 Data Connector Pinouts.............................................................................................37
12 Data Connector Pinouts Matrix ...................................................................................38
13 Pin Staging..............................................................................................................40
14 CDM Health LED States .............................................................................................43
15 RTM Serial Port Pinout...............................................................................................46
16 Ethernet Port Pinouts ................................................................................................47
17 Ethernet Port LED States...........................................................................................48
18 Telco Alarm Pinout....................................................................................................49
19 Ganged Telco Alarm Cable Pinouts with Cabling............................................................51
20 CDM Health LED States .............................................................................................52
21 CMM Health LED States.............................................................................................53
22 CMM Hot Swap LED States.........................................................................................53
23 Typical Airflow and Cooling Requirements ....................................................................57
24 Airflow Guidelines.....................................................................................................58
25 Dimensions and Weight.............................................................................................60
26 Environmental Characteristics ....................................................................................60
27 Reliability Estimate Data............................................................................................61
28 Physical Bus Number Mapping....................................................................................64
29 Related Documents...................................................................................................70
30 MPCMM0002 Product Code Summary ..........................................................................74
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