User Manual - CBU Documentation Portail
Contents
1. 3 6 H2O Noise 59 dB A Q 7096 speed Operating voltage range 36V 72V DC Dual Input Fusing Figure 29 RiCool3 Blower This unit contains electronic components that are sensitive to static electricity All electronic boards in this shelf are protected by Shelf Ground It is recommended that anti static wrist straps be worn and connected to a known good shelf ground connection when servicing Caution Rotating fan blades Can cause minor injury or cut Keep hands clear when servicing Allow time for fan blades to slow to a stop before fully removing Page 32 of 47 8 1 Overview The block diagram of the carrier board is shown in the Figure 30 Out of service Hot Swap Figure 30 Blower Block Diagram The IPMC and fan unit are located on different PCBs and furthermore have electrical isolation The IPMC monitors permanently tachometer sensor as well as temperature sensor The shelf manager can set the rotation speed by using standard PICMG compliant command 8 2 Front panel The front panel is shown in the Figure 31 There are two LEDs e HS mandatory hot swap LED e OOS mandatory Out of Service LED Under normal operation both LEDs do not light ie COMTEL PIN 041 05401 2 ELECTRONICS MU AE S N RL000001 9914360 00 Figure 31 Blower Front Panel A hot swap handle is not implemented For service pull the unit out without software deactivation 8 3 Software architecture The board 1s based o2. Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Version 0 Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address 0x02 LocalChannel LocalChannel Channel Count Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address Channel Count Channel Descriptor LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel 0x0B PICMG 3 0x42 0x84 OxOE LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel Lo
3. RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot Ox4A 0x4B Ox4C 0x4D 0x4E 0x09 0x41 0x43 0x44 0x45 0x46 0x47 0x48 0x49 Ox4A 0x4B 0x4C 0x4D 0x4E 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 Page 43 of 47 COMTEL ELECTRONICS 0x94 0x96 0x98 Ox9A Ox9C Se N 2 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 8 COMTEL m da Ke CL ELECTRONICS Channel Descriptor LocalChannel 2 RemoteChannel 9 RemoteSlot 0x42 0x84 PZP Slot Descriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address Ox4A 0x94 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 10 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 10 RemoteSlot 0x42 0x84 P2P Slot Descriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address 0x4B 0x96 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 11 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 11 RemoteSlot 0x42 0x84 P2P Slot Deseriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address Ox4C 0x98 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 12 RemoteSlot 0x41 0x82 Channel Descriptor Loc
4. Temp 1 Olh temperature sensor OBh Ih F1h 60h Temperature Air intake temperature Olh sensor Page 21 of 47 COM TEL ELECTRONICS Sensor Number L EntityID Entity Sensor Type Description Name UN Instance code O1h Oh F1h 60h Button Air filter Presence sensor SW 1 14h O2h Oh F1h 60h Button A r filter Presence sensor SW 2 14h Telco 7Dh Oh F3h 60h TELCO Alarm Major and Minor Reset Alarms Input Input sensors F4h Table 7 Sensors On The SFRU Data And TELCO Alarms Board The board also has access to shelf resources such as the Air Filter presence sensor Intake Air temperature sensors and Telco LEDs that are located on external Telco Alarms display board underneath the air filter frame see Figure 19 Figure 19 External Telco Alarms Display Board The display board exposes four Telco LEDs from left to right Critical Alarm Power OK Minor Alarm Major Alarm By default the Power OK LED is configured to be ON when the corresponding SFRU boards gets management power however this LED can be disabled by setting a jumper JP1 see Table 8 Jumper Name State Populated Not Populated Factory defaults JP1 PowerOK LED is PowerOK LED is Not Populated Disabled Enabled JP2 Reserved Reserved Not Populated Table 8 Jumper Settings On Display Board Page 22 of 47 Za COMTEL ELECTRONICS Figure 20 Jumpers On Display Board Telco Alarms LEDs can be also disabled by executing the following comman in the shel
5. 1 Environmental Conditions and Environmental Tests for Telecommunications Equipment Part 1 1 Classification of Environmental Conditions Storage Class 1 1 ETSI ETS 300 019 1 2 Environmental Conditions and Environmental Tests for Telecommunications Equipment Part 1 2 Classification of Environmental Conditions Transportation Class 2 3 ETSI ETS 300 019 1 3 Environmental Conditions and Environmental Tests for Telecommunications Equipment Part 1 3 Classification of Environmental Conditions Stationary Use at Weather protected Locations Class 3 1E ETSI European Telecommunications Standard for Equipment Practice Part 1 Introduction amp Terminology ETSI European Telecommunications Standard for Equipment Practice Part 2 Engineering requirements for Racks amp Cabinets ETSI European Telecommunications Standard for Equipment Practice Part 3 Engineering requirements for Miscellaneous Racks amp Cabinets ETSI ETS 300 119 4 European Telecommunications Standard for Equipment Practice Part 4 Engineering requirements for Subracks in Miscellaneous Racks amp Cabinets Equipment ETSI ETS 300 132 Power Supply Interface at the Input to Telecommunications Equipment ETSI ETS 300 253 Earthing and Bonding Configuration Inside Telecommunications Centres EMC ETSI EN 300 386 Europe EMC FCCpatisS CF Page 35 of 47 SEE SF ELECTRONICS Appendix B Comtel Configuration Files t Gat eto sheltman cont combel CARRI
6. FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 60 c0 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 61 c2 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 64 c8 FRU ID Oxfe Maximum FRU Power Capabilities 200 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 65 ca FRU ID Oxfe Maximum FRU Power Capabilities 200 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 66 cc FRU ID Oxfe Maximum FRU Power Capabilities 200 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 67 ce FRU ID Oxfe Maximum FRU Power Capabilities 200 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds PICMG Backplane Point to Point Connectivity Record ID 0x04 Version 0 PAP Slot Descriptor Channel Type 0x0D PICMG 3 0 ShMC Cross Connect LocalSlot HW Address 0x41 0x82 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x08 0x10 Channel Descriptor LocalChannel 2 RemoteChannel 2 RemoteSlot 0x09 0x12 P2P Slot D
7. Interface Ly 2 RemoteChannel 8 RemoteChannel 8 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 9 RemoteChannel 9 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 10 RemoteChannel 10 RemoteSlot RemoteSlot O Full Channel Fabric Interface 0x46 0x47 0x48 0x49 Ox4A 0x4B Ox4C 0x4D 0x4E 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 0x41 0x42 Page 46 of 47 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 0x82 0x84 ELECTRONICS LA 4 COMTEL F ELECTRONICS a LocalSlot HW Address 0x4C 0x98 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 11 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 11 RemoteSlot 0x42 0x84 PZP Slot Descriptor Channel Type 0x0A PICMG 3 0 Full Channel Fabric Interface LocalSlot HW Address Ox4D 0x9A Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 12 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 12 RemoteSlot 0x42 0x84 P2P Slot Descriptor Channel Type 0x0A PICMG 3 0 Full Channel Fabric Interface LocalSlot HW Address Ox4E 0x9C Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 13 Remote
8. ee AG AE ee LE DE 31 1 3 SOFTWARE ARCHITECTURE es ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee is 32 8 PLOVER RE N EO T m 32 6 1 OVERVIEW SS SS ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee 33 od FRONTPANP L as ss oe ee ee ee ee E E ee Ge Ge ag 33 8 3 SOFTWARE ARCHITECTURE ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee 33 Caution Read this manual before working on this unit Caution HAZARDOUS VOLTAGE Contact may cause electric shock or burn Electronic components are sensitive to static electricity All electronic boards in this shelf are protected by Shelf Ground It is recommended that anti static wrist straps be worn and connected to a known ground connection when removing any Field Replaceable Unit in this shelf Caution Rotating fan blades Can cause minor injury or cut Keep hands clear when servicing Allow time for fan blades to slow to a stop before fully removing Page 4 of 47 1 Introduction 1 1 Overview The Comtel CO14N shelf has the following features and characteristics 13U high 19 wide with brackets for 19 equipment practice ESD Wrist strap at the front and rear banana plug Split backplane design high speed and power sections are separated Dual Star and Full Mesh high speed backplane options Dedicated power backplane with sophisticated power distribution Power distribution for 300W per sl
9. event The following filter circuitry helps to reduce noise on power lines 45v Channel x IPMC AGV RIM Channel x essi Out af service Fuse Failed anion Board OK Fuses Failed gro ee Hot Swap Fuse3 Failed 49V Front Panel Fuses Failed Fuse4 Failed Figure 22 PEM Block Diagram Note hot swap functionality is implemented only for the management controller IPMC to ensure data consistency during communication with the shelf manager A PEM can be plugged out only in case when input power is disconnected This allows to service one PEM while second supplies power to the complete system Note Maximum current shall not exceed 140 Amp 6 2 PEM Front panel The PEM front panel is shown in Figure 23 The power studs are separated in two groups The left group is intended for Positive Return Voltage wire and the right group is for Negative Voltage wire Page 25 of 47 m COMTEL ELECTRONICS Figure 23 Power Entry Module Front Panel The LEDS are LED VOLTAGE Voltage On Input voltage polarity reversed Off Normal Operation FUSE CHI Fuse 1 On Fuse blown or absent Blinking Input power lost Off Normal Operation FUSE CH2 On Fuse blown or absent Blinking Input power lost Off Normal Operation FUSE CH3 On Fuse blown or absent Blinking Input power lost Off Normal Operation FUSE CH4 On Fuse blown or absent Blinking Input power lost Off Normal Operation FUSE FANS Fuse 5 On Fuse blow
10. lt COMTEL ELECTRONICS COMTEL Electronics GmbH Technopark I Bretonischer Ring 11 D 85630 Grasbrunn Germany Tel 49 0 89 43 77 89 0 Fax 49 0 89 43 77 89 77 CO14N Manual Revision 2 3 r7 i unt L f n ME T I ELECTRONICS Revision History February 2010 Dmitry Tsitsilin notes for PEM picture edits UL I i PP S VO iio mkt d October 2011 Dmitry Tsitsilin Copyright Notice This material is the proprietary property of Comtel Electronics Copying compilation modification distribution or any other use whatsoever of this material is strictly prohibited without written permission of Comtel Electronics GmbH The information in this document is subject to change without notice and should not be construed as a commitment by Comtel Electronics Neither Comtel Electronics nor there agents assume any responsibility for the use or reliability of this document or the described software Page 2 of 47 lt 3 COMTEL ELECTRONICS Table of Contents 1 PIROPO TION esca 5 bi OVERVIEW Ae 5 1 2 SHELF INSTALLATION san ee ie Ss 1 3 SHELF LABELING allea 9 Z BACKPTANE N ee ee ee 10 2 1 POWER BACKPLANE illo nana 10 2 1 1 COVETVIEW cvivciricicrericrericiereriereriorericcereccerisiore riore vesceresce serio cirio ee ee ee ee ee 10 2 1 2 Power Channel segmentation arredi 10 IS MERI Dus ITI EN ED EE ieies OE N 11 BAF dooi tal SICA OP Ia DD een AE EE EG IE Ee EE 12 203 On 13 2 1 6 Metallic Tes
11. their mapping on FRUs Power Management specifies maximum power capability and activation readiness of each FRU supported in the shelf Backplane Connectivity specifies how Base Fabric Update and ShMC cross connect channels are routed on the backplane Shelf Manager IP Connection specifies P address Gateway and Netmask for the primary ShMC Ethernet port The IPMC manages the Telco Alarms interface as well This interface provides a simple way to indicate any pre programmed unhealthy state somewhere in the shelf The shelf or system managers are responsible to receive events from sensors on FRUs and then to process these with PEF Platform Event Filtering mechanism The system integrator can assign filter rules to set any kind of alarm severity in case if any FRU sends expected events Comtel shelves are pre configured to set alarms on temperature and fan spinning events assertion Sensors provided by IPMC are given in the Table 7 Sensor Number L EntityID Entity Sensor Type Description Name UN Instance code 85h Oh F1h 60h IPMB Link Flh System Status 84h Oh F1h 60h Hot Swap FOh System 7Fh Oh F1h 60h Button System State 14h 01h 3h F1h 60h OEM System Status DSh FW 88h Oh F1h 60h OEM System Revision D6h ISC 83h Oh F2h 60h Hot Swap FOh System FRU 70h Oh F3h 60h Hot Swap FOh System Alarm 00h Ih F1h 60h Temperature Redundant on board Temp 0 Olh temperature sensor Olh Ih F1h 60h Temperature Redundant on board
12. 5577 1 FRU future PEM two power channels 2Ch Rev BO with filter no fuses no CB 471 05576 1 FRU FRU data board excluding Telco Rev AO 14R systems relays and contacts 022 05524 To replace power must be disconnected 20A and PEM must be removed 022 05525 Green replace in pairs To replace power must be disconnected 30A and PEM must be removed 044 05711 Safety covers for input terminals 2 black 2 red Harness Boots set of 4 042 05655 Double Lug 14 bolt 34 pitch T amp B 256 30695 1225 set of 4 blue 041 05696 ATCA 14 Slot Cable Mgmt Cable duct for 13U shelf front Tray Front 041 05697 ATCA 14Slot Cable Mgmt Cable duct for 13U shelf rear Tray Rear Air Blocker CRS 041 03895 ATCA Filler Panel RTM Pearl White painted finish Provides airflow impedance Air Blocker CRS 041 03894 1 ATCA Filler Panel Front Black painted finish Provides airflow impedance Air Blocker CRS 041 03895 1 Black painted finish Provides airflow impedance Air Blocker CRS 041 03894 2 ATCA Filler Panel Front Brushed silver finish accepts FP Provides airflow impedance light weight Air Blocker AL overlay 041 03895 2 ATCA Filler Panel RTM Brushed silver finish accepts FP Provides airflow impedance light weight Air Blocker AL overlay 041 03894 3 Brushed stainless finish accepts Provides airflow impedance light weight Air Blocker SS FP overlay 041 03895 3 ATCA Filler Panel RTM Brushed stainless finish accepts Pro
13. 60h 15h 60h 15h 60h 15h 60h 15h 60h 15h 60h 15h 60h 15h 60h 15h 60h 15h 60h IPMB Link Flh Hot Swap FOh OEM D5h OEM D6h Temperature Olh Temperature Olh Voltage 02h Voltage 02h OEM 2Dh OEM 2Dh OEM 2Dh OEM 2Dh OEM 2Dh Power Unit 09h COM TEL ELECTRONICS System System System System Redundant on board temperature sensor Redundant on board temperature sensor Redundant 3 3V in the shelf generated on carrier board Redundant 3 3V in the shelf generated on carrier board Fuses on power channel 1 are not OK sensor Fuses on power channel 2 are not OK sensor Fuses on power channel 3 are not OK sensor Fuses on power channel 4 are not OK sensor Fuses on power channel F are not OK sensor Input power lost Table 9 Sensors On The Power Entry Module Page 27 of 47 VEER EE ELECTRONICS 6 4 Installation and service To connect external power supply to the shelf two hole lugs must be used Use Thomas amp Betts PN 256 30695 1225 as shown in Figure 24 or equivalent Figure 24 Required PEM Power Lug Rubber boots are supplied with the shelf Use these to cover power lugs WARNING Always disconnect input power prior to servicing PEM Disturbed current through the backplane connector will lead to high voltage spikes or arc discharge thus connector backplane damage Note caution must be taken when working near to the
14. 6h 8Eh 47h 90h 48h 92h 49h 94h 4Ah 96h 4Bh 98h 4Ch 9Ah 4Dh 9Ch 4Eh Table 2 Hardware Address Mapping 2 1 4 Logical to Physical slot mapping In order to simplify the service of the shelf by service personnel the term Logical slot has been introduced Physical slots are numbered from to 14 from left to right looking on the shelf from the front independently from where the Hub slots are By assigning logical slots the Hub blades are forced to occupy the first slots and other slots are numbered sequentially while moving away from Hubs The mapping between logical slots and their physical positions is given in the Table 3 Physical slot 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Logical slot 13 11 9751311121416 8 10 12 14 Table 3 Logical To Physical Slot Mapping Page 12 of 47 4 COMTEL ELECTRONICS 2 1 5 Logic ground ee TO MN 40 MEMINI 0 0 ECE 0 a Tee RIT onn ON Le O O On no cs me o ea Mal n EE IF N r d EE EE Ma Pt Brune PR E N g gt s 7 Figure 6 Logic Ground Logic ground is used as reference for low voltage electronics and it is isolated from the chassis shelf ground and 48v power lines For EMI EMC purpose it might be needed to connect the logic ground and shelf ground together To connect both grounds a screw with a conductive metal washer would be installed in this location GND To disconnect remove screw as shown on the Figure 6 Note by default th
15. Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 3 PRU Addr 43 86 FRU ID Oxte FRU Addr 47 8e FRU ID Oxfe FRU Addr 4b 96 FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 3 FRU Addr 45 Ba FRU ID Oxfe FRU Addr 49 92 FRU ID Oxfe FRU Addr 4d 9a FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 10 FRU Addr 08 10 FRU ID Oxfe FRU Addr 09 12 FRU ID Oxfe FRU Addr Oa 14 FRU ID Oxfe FRU Addr Oc 18 FRU ID Oxfe a a D COMTEL ELECTRONICS Page 40 of 47 SE ELECTRONICS FRU Addr 60 c0 FRU ID Oxfe FRU Addr 61 62 FRU ID Oxte FRU Addr 64 c8 FRU ID Oxfe FRU Addr 65 ca FRU ID Oxfe FRU Addr 66 cc FRU ID Oxfe FRU Addr 67 ce FRU ID Oxfe PICMG Shelf Activation And Power Management Record ID 0x12 Version 0 Allowance for FRU Activation Readiness 10 second
16. ER COMTEL HPDL TRUE MIN SHELF FRUS 1 LOCAL SHELF FRU FALSE EXIT IF NO SHELF FRU FALSE MIN FAN LEVEL 20 INITIAL FAN LEVEL 100 RMCP NET ADAPTER2 ethl SWITCHOVER ON HANDLE OPEN TRUE ALLOW CLEARING CRITICAL ALARM TRUE REDUNDANCY NET ADAPTER usb0 RMCP NET ADAPTER eth0 FAN FULL SPEED DELAY 30 SHELF FRU IPMB SOURCE1 0x14 SHELF FRU IPMB SOURCE2 0x18 FAN LEVEL STEP DOWN 10 FAN LEVEL STEP UP 10 SWITCHOVER ON HANDLE OPEN TRUE CARRIER OPTIONS SCARRIER OPTIONS cat etc rc comtel bin sh CARRIER COMTEL CARRIER OPTIONS CARRIER OPTIONS USE DEFAULT COOLING TRUE enables default cooling strategy non zoned SHELFMAN COMMAND LINE Add shelfman options see etc rc common export CARRIER CARRIER OPTIONS etc netconfig 1 etc rc common Page 36 of 47 Za COMTEL ELECTRONICS Appendix C Part Numbers RT BLACK Rev A0 BLACK 307 03938 ATCA 14Slot FM 13U d 2 73mm Full Mesh backplane 40Gbps Ready il SRT Niet aoea Unit 471 05561 ATCA 14 slot PPS ShMC including PPS Module for ATCA FRU ShMC cassette including front REA Tagen panel carier board amp shell manager 471 05577 ATCA 14 slot PEM Unit For ATCA 14R systems FRU Economic PEM 471 05576 ATCA 14 slot FRU amp For ATCA 14R systems FRU FRU data board including the Telco 038 05625 ATCA 14 Slot Air Filter Reuse existing metal frame FRU Air Filter 3M High Air Flow size frameless 441 x 288 x 10 mm Accessories 471 0
17. Enabled Delay Before Next Power On 0 0 seconds Hw Address 46 8c FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 47 8e FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 48 90 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 49 92 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 4a 94 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Page 41 of 47 8 COMTEL m da Ke CL ELECTRONICS Hw Address 4b 96 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 4c 98 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 4d 9a FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 4e 9c FRU ID Oxfe Maximum
18. FRU ID Oxfe PRU Addr 49 92 FRU ID Oxfe FRU Addr Ad 9a FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 10 FRU Addr 08 10 FRU ID xfe FRU Addr 09 12 FRU ID Oxfe FRU Addr Oa 14 FRU ID Oxfe FRU Addr Oc 18 FRU ID Oxfe ERU Addr 60 900 FRU ID Oie Page 39 of 47 FRU Addr 61 62 FRU ID Oxfe FRU Addr 64 08 FRU ID Oxfe FRU Addr 65 ca FRU ID Oxfe FRU Addr 66 cc FRU ID Oxfe FRU Addr 67 ce FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 4 FRU Addr 42 84 FRU ID Oxfe FRU Addr 46 8c FRU ID Oxfe FRU Addr 4a 94 FRU ID Oxfe FRU Addr 4e 9c FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 4 FRU Addr 41 82 FRU ID Oxfe FRU Addr 44 88 FRU ID Oxfe FRU Addr 48 90 FRU ID Oxte FRU Addr 4c 98 FRU ID Oxfe PICMG Shelf Power
19. PEM power studs to avoid personnel injury The shelf operating voltage range covers TNV 2 voltages 60 80V This voltage is considered hazardous The service action may be needed when some fuses have blown Prior to servicing be sure to disconnect power feeds to PEM To replace the fuses the PEM has to be unplugged Always replace a compliment fuse to the blown one on given power channel i e 48V and RTN fuses have to be replaced 6 5 Crimping Instruction Before crimping slide rubber boot along each wire red on and black on Follow the guidelines e Strip the insulation from cable to the length shown in table on reverse side Be careful not to nick cable strands which may later result in stands breaking e Cable end should be clean wire brush or clean with emery cloth if necessary Insert cable into connector until it stops The insertion length must approximate the stripped length of cable e Insert connector in die and compress between the markings beginning near the tongue of the connector Table on reverse side shows installing die and the number of compressions required for each die connector combination Note Using improper installing die may result in a defective connection DO NOT CRIMP ON ENERGIZED WIRES e After crimping remove all sharp edges flash or burrs Page 28 of 47 gt COMTEL ELECTRONICS e Insulating methods shown in Table 10 WIRE ma NUMBER OF COMPRESSIONS Colour FLEX DIE c
20. Site 3 Type Fan Tray 04 Hw Addr 67 ce Site 4 Type Fan Tray 04 PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 4 FRU Addr 42 84 FRU ID Oxfe FRU Addr 46 8c FRU ID Oxfe FRU Addr 4a 94 FRU ID Oxfe FRU Addr 4e 9c FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 4 FRU Addr 41 82 FRU ID Oxfe FRU Addr 44 88 FRU ID Oxfe ERU Addr 48 90 FRU ID Oxfe FRU Addr 4c 98 FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 3 FRU Addr 43 86 FRU ID Oxte FRU Addr 47 8e FRU ID Oxfe FRU Addr 4b 96 FRU ID Oxfe PICMG Shelf Power Distribution Record ID 0x11 Version 0 Feed count 1 Feed Maximum External Available Current 140 0 Amps Maximum Internal Current 40 0 Amps Minimum Expected Operating Voltage 40 5 Volts Feed to FRU Mapping entries count 3 FRU Addr 45 Ba
21. Slot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 13 RemoteSlot 0x42 0x84 PICMG Shelf Manager IP Connection Record ID 0x13 Version 1 Shelf Manager IP Address 192 168 0 171 Default Gateway Address 0 0 0 0 Not Specified Subnet Mask 255 255 255 0 PICMG Shelf Manager IP Connection Record ID 0x13 Version 1 Shelf Manager IP Address 172 16 0 171 Default Gateway Address 172 16 0 170 subnet Mask 255 255 0 0 Page 47 of 47
22. alChannel 2 RemoteChannel 12 RemoteSlot 0x42 0x84 P2P Slot Descriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address 0x4D 0x9A Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 13 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 13 RemoteSlot 0x42 0x84 PICMG Backplane Point to Point Connectivity Record ID 0x04 Version 0 P2P Slot Descriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address 0x4E 0x9C Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 14 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 14 RemoteSlot 0x42 0x84 PICMG Backplane Point to Point Connectivity Record ID 0x04 Version 0 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x41 0x82 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x42 0x84 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x42 0x84 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x41 0x82 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x43 0x86 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x44 0x88 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update C
23. allation might cause system damage or personnel injury Consider the following guidelines Install the system only in area with restricted access Follow the installation rules governs in your country Power distribution to the shelf must include over current protection devices Use appropriate protective bonding conductor according to over current limits for power lines Make sure that the personnel will not interfere with cables and cords connected to the rack shelf Make sure that the shelf airflow 1 e ventilation openings are not disturbed by cables and rack construction see Figure 3 otherwise it might lead to system damage 600 mm x N Figure 3 Minimum Clearances While Installing In The Rack Page 8 of 47 i COMTEL KF pera m ELECTRONICS 1 3 Shelf labeling Input Voltage 48 VDC 60 VDC Shelf Nameplate eke OER ER e Model name COIAN OD C F e Manufacture Part Number optional EL M e Serial Number optional e Nominal input voltage and current M N CO14N e Country of manufacture P N e Certification signs marks Figure 4 Example Of Shelf Labels Shelf Serial Number label Tel A e Model number full example CO14N B DS UB4 S2128 P2 T2 A e Mfg Part Number with Code 39 Bar code e Serial Number with Code 39 Bar code Finish Option N Unpainted Brushed steel zinc plated Option B Black RAL9004 fine texture Custom Contact Comtel sales for deta
24. calChannel LocalChannel Point Connectivity OxOB PICMG 3 0x43 0x86 LocalChannel OxOB PICMG 3 0x44 0x88 LocalChannel 0x0B PICMG 3 0x45 0x8A 0x0B PICMG 3 0x46 0x8C 0x0B PICMG 3 0x47 0x8E 0x0B PICMG 3 0x48 0x90 0x0B PICMG 3 0x49 0x92 0x02 LocalChannel RemoteChannel RemoteChannel RemoteChannel RemoteChannel RemoteChannel L0 kl 12 log 14 0 Base Interface PppHHH 1 RemoteChannel 1 2 RemoteChannel 2 3 RemoteChannel 2 4 RemoteChannel 2 5 RemoteChannel 2 6 RemoteChannel 2 7 RemoteChannel 2 8 RemoteChannel 2 9 RemoteChannel 2 10 RemoteChannel 2 11 RemoteChannel 2 12 RemoteChannel 2 13 RemoteChannel 2 14 RemoteChannel 2 Record ID 0x04 0 Base Interface 1 RemoteChannel 3 2 RemoteChannel 3 0 Base Interface 1 RemoteChannel 4 2 RemoteChannel 4 0 Base Interface 1 RemoteChannel 5 2 RemoteChannel 5 0 Base Interface 1 RemoteChannel 6 2 RemoteChannel 6 0 Base Interface 1 RemoteChannel 7 2 RemoteChannel 7 0 Base Interface 1 RemoteChannel 8 2 RemoteChannel 8 0 Base Interface 1 RemoteChannel 9 NEE RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot
25. ct connects Table 4 Cross Connect Implementation On Comtel Backplanes The Shelf Managerl is connected to the dedicated Switch slot over the primary channel rows ABCD and to dedicated Switch2 slot over the secondary cross connect channel Same is applicable for Shelf Manager 2 connected to dedicated Switch2 slot and over the secondary channel with Switchl as shown in the Figure 8 Page 14 of 47 Pi A Ss COMTEL SF ELECTRONICS Shelf Shelf Manager Manager Active Backup Eth port 1 Eth port 1 Eth port 2 Eth port 2 ShMC ShMC Portl ShMC Port abcdefgh ShMC Port with Cross connect Figure 8 Shelf Manager Ethernet Port Cross Connect Implementation 2 2 3 Fabric Interface Fabric interface is mostly used for high throughput Data transport and may utilize interfaces such as 1 10 40 Gigabit Ethernet PCI Express Serial RapidIO etc The Fabric Interface is comprised of 13 Channels providing connectivity among the front boards Each channel occupies two rows of ZD connector resulting in 8 pairs per channel The shelf can be assembled with either Dual Star or Full Mesh version of backplane The Full mesh topology does not use a central switch fabric All slots are identical from connection point of view as shown in the Figure 9 Figure 9 Fabric Topology there are no dedicated hub boards Backplane routing has been optimized to achieve data rates higher than 10Gbps per pair The high speed inte
26. e 1 Type Dedicated ShMC 03 Hw Addr 09 12 Site 2 Type Dedicated ShMC 03 Hw Addr 0a 14 Site 1 Type Fan Filter Tray 05 Hw Addr 0a 14 Site 1 Type Shelf FRU Information 02 Hw Addr 0a 14 Site 1 Type Alarm 06 Hw Addr 0c 18 Site 2 Type Fan Filter Tray 05 Hw Addr 0c 18 Site 2 Type Shelf FRU Information 02 Hw Addr Oc 198 Site 2 Type Alarm 06 Hw Addr 41 82 Site 7 Type AdvancedTCA Board 00 Hw Addr 42 84 Site 8 Type AdvancedTCA Board 00 Hw Addr 43 86 Site 6 Type AdvancedTCA Board 00 Hw Addr 44 88 Site 9 Type AdvancedTCA Board 00 Hw Addr 45 8a Site 5 Type AdvancedTCA Board 00 Hw Addr 46 8c Site 10 Type AdvancedTCA Board 00 Hw Addr 47 Be Site 4 Type AdvancedTCA Board 00 Hw Addr 48 90 Site 11 Type AdvancedTCA Board 00 Hw Addr 49 92 Site 3 Type AdvancedTCA Board 00 Hw Addr 4a 94 Site 12 Type AdvancedTCA Board 00 Hw Addr 4b 96 Site 2 Type AdvancedTCA Board 00 Hw Addr 4c 98 Site 13 Type AdvancedTCA Board 00 Hw Addr 4d 9a Site 1 Type AdvancedTCA Board 00 Hw Addr 4e 9c Site 14 Type AdvancedTCA Board 00 Hw Addr 60 c0 Site 1 Type Power Entry 01 Hw Addr 61 c2 Site 2 Type Power Entry 01 Hw Addr 64 c8 Site 1 Type Fan Tray 04 Page 38 of 47 SE ELECTRONICS Hw Addr 65 ca Site 2 Type Fan Tray 04 Hw Addr 66 cc
27. e GND screw is not installed at factory 2 1 6 Metallic Test Bus and Ringing Generator Bus Metallic test bus provides two pairs on the backplane These can be used for metallic testing in the shelf in some telecom applications Ringing generator bus is shared among the slots and can be used to supply a Ring signal from an external generator to the front boards Page 13 of 47 SE ELECTRONICS Both busses are available on the power backplane although the connector with Metallic test and ringing generator contact is not assembled by default Note Contact Comtel for more information 2 2 High speed Backplane 2 2 1 Base Interface The Zone 2 Base Interface is used to support connections among Boards in the shelf This interface supports 10 100 1000 BASE T Ethernet Connections are composed of four differential signal pairs one row of ZD connector called Base Channels The topology of Base interface is Dual Star as shown in the Figure 7 It enables connection from multiple Node boards to dedicated Hub boards The latter are always located in Logical slot 1 and 2 Base channel 1 is allocated to the shelf manager Figure 7 Dual Star Topology rectangles hub boards circles node boards 2 2 2 Shelf manager Ethernet connections Backplane P23 connector pin out is implemented according to ECNOOI Table 4 Interface Row designation ShMC Port with ShMC cross Primary ShMC Cross connect Secondary ShMC Cross conne
28. el 1 RemoteSlot 0x49 0x92 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x4B 0x96 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x4C 0x98 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x4C 0x98 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x4B 0x96 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x4D 0x9A Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x4E 0x9C P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address Ox4E 0x9C Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x4D 0x9A PICMG Backplane Point to Point Connectivity Record ID 0x04 Version 0 P2P Slot Descriptor Channel Type 0x0A PICMG 3 0 Full Channel Fabric Interface LocalSlot HW Address 0x41 0x82 Channel Count 0x0D Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x42 0x84 Channel Descriptor LocalChannel 2 RemoteChannel 1 RemoteSlot 0x43 0x86 Channel Descriptor LocalChannel 3 RemoteChannel 1 RemoteSlot 0x44 0x88 Channel Descriptor LocalChannel 4 RemoteChannel 1 RemoteSlot 0x45 0x8A Channel Descriptor LocalChannel 5 RemoteChannel 1 RemoteS
29. escriptor Channel Type 0x0D PICMG 3 0 ShMC Cross Connect LocalSlot HW Address 0x42 0x84 Channel Count 0x02 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x09 0x12 Channel Descriptor LocalChannel 2 RemoteChannel 2 RemoteSlot 0x08 0x10 P2P Slot Descriptor Channel Type 0x0B PICMG 3 0 Base Interface LocalSlot HW Address 0x41 0x82 Channel Count 0x0E Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x08 0x10 Channel Descriptor LocalChannel 2 RemoteChannel 2 RemoteSlot 0x42 0x84 Channel Descriptor LocalChannel 3 RemoteChannel 1 RemoteSlot 0x43 0x86 Channel Descriptor LocalChannel 4 RemoteChannel 1 RemoteSlot 0x44 0x88 Channel Descriptor LocalChannel 5 RemoteChannel 1 RemoteSlot 0x45 0x8A Channel Descriptor LocalChannel 6 RemoteChannel 1 RemoteSlot 0x46 0x8C Channel Descriptor LocalChannel 7 RemoteChannel 1 RemoteSlot 0x47 0x8E Channel Descriptor LocalChannel 8 RemoteChannel 1 RemoteSlot 0x48 0x90 Channel Descriptor LocalChannel 9 RemoteChannel 1 RemoteSlot 0x49 0x92 Page 42 of 47 P2P PICMG Backplane Point to P2P PAP PAP P2P POP Par PAP Channel Channel Channel Descriptor Descriptor Descriptor Channel Descriptor Channel Descriptor Slot Descriptor Channel Type LocalSlot HW Address Channel Count Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor Channel Descriptor
30. f manager console clia sendcmd lt SFRU board IPMB address gt 30 D8 lt setting gt Where lt SFRU board IPMB address 0x14 for the SFRUI and 0x18 for the SFRU2 setting Ol Enable Telco Alarms LED on the display board and OO Disable Telco Alarms LED on the display board To check the status of these LED execute the command clia sendemd lt SFRU board IPMB address gt 30 D8 Note Telco Alarms Cut off functionality is optionally supported Contact Comtel for more information 5 4 Setting Shelf Manager IP address obsolete Note This functionality is not supported anymore however is present on some old chassis that have been produced until middle of 2011 During start up the IPMC reads out the SFRU Data and searches for the first Shelf Manager IP Connection It takes the IP address and modifies the lower nibbles of third and fourth bytes of IP address based on rotary switch setting The shelf manager will get already modified IP address for example C0 A8 0X AY where X and Y are values set on rotary switches hex number pointed with the arrow on a rotary switch 5 5 Default Shelf Manager IP address The IP address of the Shelf manager is stored in shelf FRU data in the Shelf Manager IP Connection section Factory default address is 192 168 0 171 5 6 Telco Alarms The board provides Telco Alarms interface Telco relay contacts and LED indication at the front panel of the board The relay contacts can withstand max
31. hannel Interface LocalSlot HW Address 0x44 0x88 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x43 0x86 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x45 0x8A Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x46 0x8C P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x46 0x8C Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x45 0x8A P2P Slot Descriptor Page 44 of 47 Channel Type OXOC PICMG 3 O Update Channel Interface COMTEL ELECTRONICS LocalSlot HW Address 0x47 0x8E Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x48 0x90 PZP Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x48 0x90 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x47 0x8E P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address 0x49 0x92 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x4A 0x94 P2P Slot Descriptor Channel Type 0x0C PICMG 3 0 Update Channel Interface LocalSlot HW Address Ox4A 0x94 Channel Count 0x01 Channel Descriptor LocalChannel 1 RemoteChann
32. ils Branding The blower door is ideal for an overlay to easily brand as your own Common specifications and dimensions to create an overlay on the face of the door are provided for convenience Recommended Material LEXAN 8B35 MT 0 25MM POLYCARBONATE ADVHESIVE 3M 467 3M 200MP or EQUIVALENT 429 00 0 25 MM Page 9 of 47 3 COMTEL SF ELECTRONICS If the label needs to occupy complete surface of the door by bending around the angle the total height of the label will be increased by 45mm and results in 136 00mm Door Face 429 90 0 25mm Door Angle 429 45 0 25mm Note The Comtel Electronics and AdvancedTCA logo are shown only as examples Comtel is not responsible for the outcome of the overlay placement or copyright compliance 2 Backplanes Comtel provides a unique no compromise split backplane assembly This enables achieving optimized power distribution while having no impact on high speed characteristics The power backplane has ultimate stack up with thick copper layers for no bottleneck power design On the other hand the high speed backplane is highly optimized to have highest throughput by using current technology 2 1 Power Backplane 2 1 1 Overview The Comtel COI4N power backplane supports the following e 14 AdvancedTCA front board slots 14 AdvancedTCA RTM slots Two PEM slots Two slots for carrier board for Pigeon Point SHMMS500 Two slots for Shelf FRU Data and Telco Alarms b
33. imum 72VDC or 1 Ampere Major and minor alarms can be reset via dedicated reset inputs by applying voltage in range 4V up to 72V The current will not exceed 10 mA Page 23 of 47 6 PEM The Power Entry Module is shown in Figure 21 and features the following Input nominal current 105A 948 VDC and 84A 60VDC via 4 studs Input nominal voltage 48 60 VDC Input voltage operating range 36 72VDC Splitting input power into five sub channels Filtering on each channel Fusing on each channel on both lines minus and RTN return with replaceable fuses Fuse failure monitoring via sensors and LEDs at front panel CAUTION DOUBLE POLE FUSING Input voltage to this unit is classed as hazardous connection Disconnect input power from PEM feed prior to service This unit contains electronic components that are sensitive to static electricity All electronic boards in this shelf are protected by Shelf Ground It is recommended that anti static wrist straps be worn and connected to a known good shelf ground connection when servicing Figure 21 Power Entry Module Page 24 of 47 TZ Re ELECTRONIGS 6 1 Overview The block diagram of the PEM is shown in Figure 22 The shelf can be used either with battery power plant or with external power supply The input power will be split into five sub channels and then fused on each line in order to prevent catastrophic failure on the backplane that can happen in case of short cut
34. l RemoteChannel RemoteChannel ND ND N N N ND ND N N he da Ke RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 2 RemoteChannel 2 ID 0x04 RemoteSlot RemoteSlot OxOA PICMG 3 0 Full Channel Fabric Interface 0x44 0x88 0x02 LocalChannel LocalChannel OxOA PICMG 3 0x45 0x8A 0x02 LocalChannel LocalChannel OxOA PICMG 3 0x46 0x8C 0x02 LocalChannel LocalChannel OxOA PICMG 3 0x47 0x02 hoealchannel LocalCchannel Ox8E OxOA PICMG 3 0x48 0x02 LocalChannel LocalChannel 0x90 OxOA PICMG 3 0x49 0x02 LocalChannel LocalChannel 0x92 OxOA PICMG 3 Ox4A 0x02 LocalChannel LocalChannel 0x94 OxOA PICMG 3 0x4B 0x02 LocalChannel LocalChannel 0x96 OxOA PICMG 3 1 2 RemoteChannel 3 RemoteChannel 3 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 4 RemoteChannel 4 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 5 RemoteChannel 5 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel 6 RemoteChannel 6 RemoteSlot RemoteSlot O Full Channel Fabric Interface 1 2 RemoteChannel RemoteChannel 7 RemoteSlot RemoteSlot O Full Channel Fabric
35. l slot 1 2 13 4 5 61778 9 10 11 I2 13 14 Logicalslot 137 1719 7 5 3 1124 6 8 10 12 1d Table 5 Update Channel Connections Page 16 of 47 4e COMTEL 2 2 5 Synchronization Clock Interface The Synchronization Clock interface provides a set of clock buses to enable applications that require the exchange of synchronous timing information among multiple Boards in a Shelf Clock lines are bussed between all slots and terminated on both ends 3 Cable trays A shelf can be optionally equipped with front or rear cable trays that are shown on the Figure 12 They help to guide and fasten cables and cords connected to the shelf _ J 04 dl Figure 12 Front Left And Rear Right Cable Trays Figure 13 CO14N With Front And Rear Cable Trays Note Contact Comtel to get more information 4 Air Filter The air filter is required to provide e filtration of intake air from dust particles e additional static pressure to achieve uniform airflow Page 17 of 47 COM TEL ELECTRONICS TYYYYTTM n TEM i P dai MAR SA MR REEN CAN ROME OE a TT ONE d um p M di ic mnn T STINE STE EP ES aan er CA r Ta e PPAR STAs NI t Front side Figure 14 Air Filter Air Filter Removal Using the lower flange as a handle gently push in and tilt down Remove Figure 14 Air Filter Presence Sensors Redundant presence sensors are shown in the Figure 15 These sensors monitor the filter replacing even
36. lot 0x46 0x8C Channel Descriptor LocalChannel 6 RemoteChannel 1 RemoteSlot 0x47 0x8E Channel Descriptor LocalChannel 7 RemoteChannel 1 RemoteSlot 0x48 0x90 Channel Descriptor LocalChannel 8 RemoteChannel 1 RemoteSlot 0x49 0x92 Channel Descriptor LocalChannel 9 RemoteChannel 1 RemoteSlot Ox4A 0x94 Channel Descriptor LocalChannel 10 RemoteChannel 1 RemoteSlot Ox4B 0x96 Channel Descriptor LocalChannel 11 RemoteChannel 1 RemoteSlot Ox4C 0x98 Channel Descriptor LocalChannel 12 RemoteChannel 1 RemoteSlot 0x4D 0x9A Channel Descriptor LocalChannel 13 RemoteChannel 1 RemoteSlot Ox4E 0x9C P2P Slot Descriptor Channel Type 0x0A PICMG 3 0 Full Channel Fabric Interface LocalSlot HW Address 0x42 0x84 Channel Count 0x0D Channel Descriptor LocalChannel 1 RemoteChannel 1 RemoteSlot 0x41 0x82 Channel Descriptor LocalChannel 2 RemoteChannel 2 RemoteSlot 0x43 0x86 Channel Descriptor LocalChannel 3 RemoteChannel 2 RemoteSlot 0x44 0x88 Channel Descriptor LocalChannel 4 RemoteChannel 2 RemoteSlot 0x45 0x8A Page 45 of 47 P2P PICMG Backplane Point to BOE Par PZP P2P PAP P2P P2P PZP PAR Channel Channel Channel Channel Channel Channel Channel Channel Channel Descriptor Descriptor Descriptor Descriptor Descriptor Descriptor Descriptor Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Cha
37. n IPMI and PICMG specifications compliant IPMC controller Page 33 of 47 amp COMIEL ELECTRONICS The IPMC exposes one FRU e FRUIDO FAN MODULE The sensors on the blower unit are given in the Table 12 Name UN Instance code Sau EE EE EOMER EN Status 84h Oh 1Eh 60h Hot Swap FOh System HotSwap FW 88h Oh 1 Eh 60h OEM System Revision D6h NO Fan nn FAN IPMC Fre 04h Oh 1Eh 60h Temperature Exhaust temperature 5 Olh sensor m MEE N e geeedon Flame O3h Oh 1Eh 60h OEM Flame sensor Sensor D2h gt ER NE 1 N RT Table 12 Sensors On The Blower Unit Page 34 of 47 ELECTRONICS Appendix A Standards Standard PICMG PICMG 3 0 R2 0 Advanced Telecommunications Computing Architecture Part 1 General Requirements DENEN OONMYI Information Technology Equipment Immunity Characteristics limits and Methods of Measurement SR 3580 NEBS Criteria Levels GR 63 CORE NEBS Requirements Physical Protection Telcordia GR 78 CORE General Requirements for the Physical Design and Manufacture of Telecommunications Products and Equipment GR 1089 CORE Electromagnetic Compatibility amp Electrical Safety Telcordia GR 2914 CORE Human Factors Requirements for Equipment to Improve Network Integrity Telcordia ETSI ETS 300 019 1 0 Environmental Conditions and Environmental Tests for Telecommunications Equipment Part 1 0 Classification of Environmental Conditions Introduction ETSI ETS 300 019 1
38. n or absent Blinking Input power lost ACTIVE Normal operation IPMC is in M4 state Off Normal Operation Out of Blinking Lost connection to ShMC or no IPMB bus service On Incorrect hardware address or FRU data corruption Off Normal Operation if ACT is On IPMC stuck in M3 state if ACT is Off Blinking Hot swap circuit active wait On Hot swap complete ready to remove OOS Hot wap Blue There is a special condition all five fuse LEDs will be simultaneously blinking if input power is lost on this particular PEM Page 26 of 47 6 3 Software architecture The board is based on IPMI and PICMG specifications compliant IPMC controller The IPMC exposes one FRU e FRU ID 0 CO14N PEM The IPMC is responsible for communication with a shelf manager Furthermore it monitors fuse status and reflects this information as IPMI sensors and LEDs at front panel The sensors on the PEM are given in the Table 9 Sensor Number L EntityID Entity Sensor Type Description Name UN Instance code IPMB 0 Status HotSwap IPMC Status FW Revision ISC Board Temp 0 Board Temp 1 VMGI1 VMG2 Failure pwr ch 1 Failure pwr ch 2 Failure pwr ch 3 Failure pwr ch 4 Failure pwr ch F Input power 85h Oh 84h Oh Olh 3h 88h Oh 00h Ih 01h 1h 06h Oh 07h Oh Olh Oh 02h 0h 03h Oh 04h Oh OSh Oh 08h Oh 15h 60h 15h 60h 15h 60h 15h 60h 15h
39. net channel 0 of SHMM 500 to E RJ 45 connector at front panel RS 232 connector is given in Table 11 Two pin assignments are possible Note Factory default is Cisco pinout RS 232D pinout Cisco pinout Pin Name Dir Description Dir DSR RI lt Data Set Ready Ring RTS CD Carrier Detect DTR DTR Data Terminal Ready TXD Transmit Data ZO GND GROUND GND GROUND RXD lt Receive Data GND GROUND DE TxD Transmit Data RXD lt Receive Data CTS Clear to Send DSR EB RTS Request to Send CTS Table 11 RS 232 Port Pinout A Note Remove battery saver prior to using shelf Page 31 of 47 SE SF ELECTRONICS 7 3 Software architecture Refer to Pigeon Point documentation for SHMM500 software architecture details Comtel specific settings are stored in these locations e etc shelfman conf comtel Comtel configuration file e etc rc comtel Comtel script file e var nvdata carrier_data Comtel carrier hardware description file e var nvdata carrier_sdrs Comtel carrier SDR e var nvdata chassis data Comtel shelf specific settings 8 Blowers The shelf includes four RiCool3 blower units at the top RiCool3 is the third generation of the blower design for that chassis The airflow and noise parameters have been significantly optimized in comparison with predecessor RiCool3 is shown in the Figure 29 and features Airflow 320 m h 188CFM Static Pressure 897 Pa
40. nnel Version Type Count Descriptor Descriptor 0 Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel lype Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel lype Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Deseriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Descriptor Channel LocalSlot HW Address Channel Channel Channel Type Count Descriptor Descriptor Slot Descriptor Channel Type LocalChannel LocalChannel LocalChannel LocalChannel LocalChannel Point Connectivity Record LocalChannel LocalChannel LocalChannel LocalChannel OxOA PICMG 3 0x43 0x02 LocalChannel Localchannel 0x86 OO N OY UI 2 10 ids 125 pos RemoteChannel RemoteChannel RemoteChannel RemoteChannel RemoteChannel RemoteChannel RemoteChanne
41. oard Slot for air intake temperature sensor Note Metallic test and ringing generator buses are available Contact Comtel to get more information 2 1 2 Power Channel segmentation The power backplane has A and B power channels each split in five sub channels to guarantee no damage in case of a short circuit somewhere in the shelf on the load side Each PEM feeds either channel A or B depending on position in the shelf Power distribution is shown in Table 1 Page 10 of 47 lt 3 COMTEL ELECTRONICS Slot FRU 1 2131415 6 7 8 9 10 11 12 13 14 SFRU SHMC FAN sA Ch only PEM1 Table 1 Power Channels Among Logical Slots And FRUs R Ch only PEM 2 2 1 3 IPMB bus mapping The power backplane has a bussed IPMB topology There are two redundant IPMB busses shared among the intelligent FRUS on the backplane The bus pull up resistors are located on the shelf manager which is currently active The bussed topology is shown in the Figure 5 IPMBO A puos ET Figure 5 Bussed IPMB Topology Each FRU has a unigue hardware address Mapping is given in the Table 2 FRU Looking from rear IPMB address Hardware Address SHMC left E HI 12h 09h ED NE I re Blower onen Dane ues MEME Te ee EE ge Page 11 0f47 ACOMTEL EG lt P ELECTRONICS FRU Looking from rear IPMB address Hardware Address 88h 44h 8Ah 45h 8Ch 4
42. ode HAND TOOLS HYDRAULIC HEADS BATTERY OPERATED 24 CU die TOOLS WIRE CODE code R TBM21E Ci T 12 15 40 TBM6BSCR BPLT14BS 6 TON 14 1 TBM25S M i ue ue Too 500BS CR R 5 TBM20S es Es sessi 61 24 0 6 BLUE De 1550 5 STRD 24 0X G H amp IA 1552 K SOLID 4X 2X Table 10 Crimping Insulating Methods Note When using other lugs refer to installation instruction of lugs manufacturer 6 6 Powering the shelf After the power cable is crimped it may be connected to the PEMs as directed e Make sure that neither PEM nor power cord are energized e Remove the first set of nuts and lock washers from each PEM s stud e Install each double lug on two studs either horizontally or vertically e Do not apply torque more than 3 8 Nm 33 62 Ibf in e Install prior removed nuts and washers e Slide rubber boots red on and black on along cable to cover the nuts The above stated guidelines are partially shown in the Figure 25 Figure 25 Example Of Double Lug Installation And Rubber Boots Page 29 of 47 ELECTRONICS 7 Carrier board for Pigeon Point shelf manager The carrier board is shown in Figure 26 and features the following e Supports Pigeon Point SHMM500 shelf manager e RS 232 port at front panel via RJ 45 connector e Ethernet channel 0 demultiplexor Eth0 is routed to front panel or backplane e Hot swap actuator Figure 26 Carrier Board This unit contains electronic components tha
43. ot Backplane protection by fusing power channels with 30Ampere Cooling capability 300W for front boards and 35W for RTM Four high pressure RiCool 3 Blower units hot swappable front pluggable Air filter with redundant presence sensor front pluggable Redundant Power Entry Modules fuse failure and reverse voltage indicators Redundant Shelf FRU Data boards with Telco Alarms Redundant carrier boards for Pigeon Point SHMM500 shelf manger RS232 and Ethernet at front panel hot swappable RoHS Compliant Specifications ae Wa mm 199m H 57mm 27in oe l Hm oM 50 EE ENS EINEN Ibs Unpackaged Packaged on pallet Page 5 of 47 L The front and rear view of the shelf is shown in the Figure and Figure 2 t COMTEL ELECTRONICS Vf i a I ai AEF b b 1 _ LI a pa EMS i lt MM LI re ERT E ALT wo a SU Li oa ci Ga ad I DD IE 2a EEEEE SCOMTEL u mr CO 14 DS System Figure 1 CO14N Shelf Front View Page 6 of 47 pene e ZUR t 1X 5 wW 1 07 exext COMTEL IE CO 14 DS Sustem men TEE EE mt A ro nen Emana ea b e act SAE VQLTAOE AR VOE 40 VOX ENTRY MOOULE UB OUT VOLTAGE AA VOC 0 WEG i WMPUTCUONMENT OS ida ea INPUT CURRENT IOSA DMA pes Figure 2 CO14N Shelf Rear View Page 7 of 47 2 COMTEL IF ELECTRONICS 1 2 Shelf Installation Improper inst
44. panel The front panel is shown in the Figure 18 Page 19 of 47 Figure 18 SFRU Board Front Panel There are two rows of LEDs The left row indicates the status of IPMC and the right row is Telco Alarms display The LEDs are Off Normal Operation OOS Out Of Service Blinking Lost connection to SAMC or no IPMB bus On Incorrect hardware address or FRU data Neel operation IPMC is in Md ste o Normal ci e rea ACT is On IPMC stuck in M3 state if ACT is Off Pn Ho pp Blue Blinking Hot swap circuit active wait On Hot swap complete ready to remove MIR Major Alarm Red e On Major alarm detected in shelf CRIT Critical Alarm Red e On Critical alarm detected in shelf The D SUB15 connector provides Telco contact interface Pinout is shown in Table 6 Table 6 Telco Contacts Pinout 5 3 Software architecture The board is based on IPMI and PICMG specifications compliant IPMC controller The IPMC exposes three FRUs e FRU ID 0 SFRU Alarm Board e FRU ID 1 Shelf FRU Data e FRU ID 2 Telco Alarms The Shelf FRU information is accessible via FRU ID 1 It contains different sections each specifying a piece of the shelf 1nformation Page 20 of 47 ACOMTEL ELECTRONICS Chassis Info Board Info Product Info Address table specifies FRUs and their FRU IDs to hardware address mapping Power Distribution specifies current capability of the shelf available power feeds and
45. rconnect has been simulated with different drivers at 6 25Gbps and 10Gbps The result of the simulation with Xilinx VirtexII Pro driver and receiver with equalizer at 10Gbps is shown in the Figure 10 and Figure 11 presenting signals at the input of the receiver and at the output of the equalizer Page 15 of 47 4e COMTEL es d ELECTRONICS 400m A B e Eve Opening 3 20e 0 0 5 2 D gt 200m 400m 0 20p 40p 60p 80p 100p 120p 140p 160p 180p 200p Params lin eyetime1 Figure 10 Eye Diagram At 10Gbps Simulated At The Input Of Virtex2 Pro Receiver siling v2pro 10abps 12in fr backplane with backdrilling 300m 4 i z gt RR si N mE mE N CN CS NA 209m JI an Ly Wp d ae i 0 JE MEER dt NM ee MEE LL Lc Eed ee ee N AN ERLA RA oa L EE oe ees se N AA i 200m EN E AM ___ 1 1 IDEE ee S X __ 1 11222222222 AF 4 am PRR MAAGSEER NE AY 600m Jl_______ A e OE EE EE cee cei eae EA EEN ee eee S TTI ere DE eee ET T UP Parame in pete u n Figure 11 Eye diagram At 10Gbps Simulated At Output Of Virtex2 Pro Equalizer 2 2 4 Update channel The Update Channel Interface is comprised of 10 differential signal pairs n a point to point connection between two adjacent physical slots It can be used for general purpose high speed link between two boards Update channel connections are shown in the Table 5 Physica
46. s FRU Activation and Power Description Count 24 Hw Address 08 10 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 09 12 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address Oa 14 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address Oc 18 FRU ID Oxfe Maximum FRU Power Capabilities 20 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 41 82 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 42 84 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 43 86 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 44 88 FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation Enabled Delay Before Next Power On 0 0 seconds Hw Address 45 8a FRU ID Oxfe Maximum FRU Power Capabilities 400 Watts Shelf Manager Controlled Activation
47. t The shelf manager can be configured to notify the system Figure 15 Air Filter Presence Sensor And Guide Rails Air Filter Insertion Care should be used when inserting air filter to prevent damage to sensors Rest filter on guide rails and slide filter in until it gently contacts springs Tilt up from front until it locks under card cage Pull forward to ensure it is locked in place 5 Shelf FRU Data and Telco Alarms board The Shelf FRU Data and Telco Alarms board is shown in the Figure 16 and features e Storing Shelf FRU Data information Page 18 of 47 COMTEL os 4 ELECTRONICS e TELCO Alarms indicator LEDs e TELCO Contacts Figure 16 SFRU Data And TELCO Alarms Board This unit contains electronic components that are sensitive to static electricity All electronic boards in this shelf are protected by Shelf Ground It is recommended that anti static wrist straps be worn and connected to a known good shelf ground connection when servicing 5 1 Overview The block diagram for the Shelf FRU Data and Telco Alarms board is shown in the Figure 17 Air intake Temperature sensor Out of service Power Ok Board OK Major Alarm Hot Swap WE Minor Alarm Notused i Critical Alarm Figure 17 SFRU Data And TELCO Alarms Board Block Diagram Up to two Shelf FRU Data and Telco Alarms boards can be installed in the shelf in order to provide redundancy storage of FRU Data information 5 2 Front
48. t Bus and Ringing Generator Bus ii 13 2 2 HIGH SPEED BACKPLANE uil 14 ERU Base OO EV 14 2 2 2 Shelf manager Ethernet connections nun 14 c2 IO EE EN EE PREMIUM 15 N AE OR EE EE NE ne 16 2 2 5 Synchronization Clock Interface ria 17 3 CADE IRS ee 17 4 AIR Di PIK DT EE HO ES OE NE EE EE EE 17 5 SHELF FRU DATA AND TELCO ALARMS BOARD 18 IL OVERVIEW FRE 19 5 2 RT 19 5 3 SOFTWARE ARCHITECTURE ie es ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee 20 5 4 SETTING SHELF MANAGER IP ADDRESS OBSOLETE eene 23 5 5 DEFAULT SHELF MANAGER IP ADDRESS ee ee es ee ee ee ee ee ee ee ee ee eed 23 5 6 TELCO ALARMS meso N ee N aisi 23 6 fl N EE EE OE EE EE OE OE EE OE OE 24 Di ERE eo 25 6 2 PEM FRONT PANEL ie ee es ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee eene 25 6 3 SOFTWARE ARCHITECTURE ie es ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee ee 2 7 6 4 INSTALLATION AND SERVICE ccccsccsscoeccecceccescsccsccscceccescescosccsccsccescescescescess 28 6 5 CRIMPING INSTRUCTION 0 0ccceccscceccscccccecceccsccescescescescesscsscsscscescessessesseucs 28 6 6 POWERING THE SHELF scccsccceccecccscceccccccuscesccescecccscenccescesccesccsscescesscescens 29 y CARRIER BOARD FOR PIGEON POINT SHELF MANAGER 30 7 1 OVERVIEW orm 30 Page 3 of 47 ACOMTEL SF ELECTRONICS 0 2 ERDE EL as ee ee en rene
49. t are sensitive to static electricity All electronic boards in this shelf are protected by Shelf Ground It is recommended that anti static wrist straps be worn and connected to a known good shelf ground connection when servicing 7 1 Overview Carrier board block diagram shown in Figure 27 To backplane Switch Ethernet Eth ch 0 Out of service SMMC active Hot Swap EthO Act EthO Link RS232 Eth ch 1 Figure 27 Carrier Board Block Diagram The shelf manager has two Ethernet channels The first is demuxed and can be routed either to the front panel connector service action or to the backplane normal operation The switch at front panel enables selecting between two routing options Page 30 of 47 Za COMTEL ELECTRONICS 7 2 Front Panel Front panel shown in Figure 28 Figure 28 Carrier Board Front Panel The LEDs are n Active Shelf Manager in M4 state Off Normal Operation ENE EE c NN Off Normal Operation H S Hot Swap Blue gy Blinking Hot swap circuit active wait Hot swap complete ready to remove O O On 10 100 Mbit link for Ethernet Port 0 Link Act for Ethernet Port 0 10 100 10 100 Mbit link for Ethernet Port 1 Link Act for Ethernet Port Push Switch Allows user to choose how to route the Ethernet port 0 Pushed recessed switch maps the Ethernet channel 0 of SHMM 500 to E backplane and further to ATCA Hubs Pulled flush switch maps the Ether
50. vides airflow impedance light weight Air Blocker SS FP overlay 041 03894 4 ATCA Filler Panel Front Black plastic finish accepts FP Provides airflow impedance light weight Air Blocker Plastic overlay 041 03895 4 ATCA Filler Panel RTM Black plastic finish accepts FP Provides airflow impedance light weight Air Blocker Plastic overlay 041 05709 1 PCB finish w 2 screws Panel 041 05703 screws 041 05704 Air Blocker FR4 Page 37 of 47 Appendix D helf FRU Data Information 14 FRU 1 FRU Info Common Header Format Version 1 Chassis Info Area Version 1 Chassis Type 23 Chassis Part Number 470 05578 3 S6LUER 000 Chassis Serial Number Custom Chassis Info Board Info Area Version 1 Language Code 25 Mfg Date Time Jan 29 17 40 00 2006 5301700 minutes since 1996 Board Manufacturer Comtel Electronics GmbH Board Product Name CO14N Dual Star Board Serial Number 0709624194500069 Board Part Number 38307 03353 FRU Programmer File ID Custom Board Info ECNOOOL Product Info Area Version 1 Language Code 25 Manufacturer Name Comtel Electronics GmbH Product Name ATCA 13U 14 slot CO14N shelf Product Part Model 370 05407 Product Version 0001 Product Serial Number 1002624398500031 Asset Tag FRU Programmer File ID Custom Product Info Multi Record Area PICMG Address Table Record ID 0x10 Version 0 Shelf Address Address Table Entries 28 Hw Addr 08 10 Sit
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