Intel MPRTM0020 User's Manual
Contents
1. Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 17 n Module Components l ntel Table 2 4 3 2 Figure 8 Table 3 4 3 3 Serial Port Connector Pinout Pin Signal Name RTS DTR TXD GND GND RXD DSR CTS o N 9 a AJ N USB Interface One USB port is provided on the RTM 5V power is available through this USB port with a current limit of 400mA Figure 8 illustrates the USB connector and Table 3 provides pinout information USB Connector J2 TEN PIN 1 USB Connector Pinout Pin Signal Name 1 5V USB 2 USB 3 USB 4 GND Gigabit Ethernet Interface Two Gigabit Ethernet ports with LEDs are present on the RTM Figure 9 shows the physical outline of the RJ 45 connector used for each port and Table 4 provides the standard pinout information Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel Figure 9 Table 4 4 3 4 Module Components RJ 45 Gigabit Ethernet Connector 8 RJ 45 Ethernet Connector Pinout Pin Signal Name 1 MDIO MDIO MDI1 MDI2 MDI2 MDI1 MDI3 CO N JjJ ol om BR WwW N MDI3 SAS Connector Interface One x4 SAS Serial Attached SCSI connector is present on the RTM When the MPRTMO0020 is connected to a MPCBL0020 Sing2. u kek nennen kek kk KK kk KAK A KA KK KA A nennen 12 3 Digital Ground Connected to Chassis Ground sse 13 4 RTM Functional Block Diagram sese enne en nennen nns 14 5 Rear Transition Module RTM enisinia nennen ennemis kenek k nnne 15 6 RTM Faceplate Connectors and ED 16 fF SerialPort Gonnecltor a uo o Beca etti ederi dik n ena aa aki x aa e yena wa s n k ne da 17 8 USB Connector U2 2ieddieteber deeg gees geed eege 18 9 RJ 45 Gigabit Ethernet Connector cece cece ee teeeeeeeeeeeeeeaeeeeeeeeeceaeeeeeeeeeseaaeeteneeeessaeeeteaaeeee 19 10 S CXehreme e 20 Td RUP48COMMECION iem cc 21 12 P30 CoRn OLOF ss sy E ieee 22 13 RITM Power DiST D OL coc cott oorr Ete Lee rage n Ene Core kak REK K ll an n banya ku Eo Re 26 14 Physical Breakdown of SAS Ports Distributon kk kk kk A 27 15 R445 Ethernet Pont LEDS assess a xen y k ne enka kan kai yake nA e d e dad nea ka u k n kend 28 16 RTM Temperature Sensor Locations uiEE EEE kak ek kk kk kek kk kk KA KA KAK KAKA KAK RA 32 17 Component LAYOUT cs ai cessece sets M 34 4 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel Tables OONDOARWND AGFONYIMS and Tell EE E DI D DERE 7 Serial Port Connector Pinout gent EENEG ENEE da ven ea ae W NE 18 USB Conne
3. April 2006 41 u Agency Information ntel Agency Information 10 10 1 10 2 10 3 42 Warning North America FCC Class A Federal Communications Commission FCC Part 15 Rules 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 and 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 user will be required to correct the interference at his own expense Canada Industry Canada ICES 003 Class A Industry Canada ICES 003 Issue 3 This Class A digital apparatus meets all requirements of the Canadian Interference Causing Equipment Regulations Cet appareil num rique de la classe A respecte toutes les exigences du R glement sur le mat rial brouilleur du Canada European Union The products covered by this notice meet the following European Directives 73 23 EECLow Voltage Directive 89 336 EECEMC Directive To achieve CE compliance be sure to select a host that already meets the EMC and Low Voltage Directives before the addition of any
4. Intel NetStructure MPRTM0020 Rear Transition Module Technical Product Specification April 2006 Order Number 309383 004 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 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 This document and the software described in it are furnished under license and may only be used or copied in accordance with the terms of the license The information in this document is furnished for informational use only is subject to change without notice and should not be construed as a commitment by Intel Corporation Intel Corporation assumes no responsibility or liability for any errors or inaccuracies that may appear in this document or any software that may be provided in association with this document Except as permitted by such license no part of this document may be reproduced stored in a retrieval system or transmitted in any form or by any means without the express written consent of Intel Corporation Contact your local Intel
5. Warranty Information includes product warranty information Chapter 8 Customer Support offers technical and sales assistance information for the Rear Transition Module Chapter 9 Certifications provides information about product certifications Chapter 10 Agency Information provides product compliance information Chapter 11 Safety Warnings includes several safety warnings about working with the Rear Transition Module 1 1 Acronyms and Terms Table 1 Acronyms and Terms Sheet 1 of 2 Term Definition AdvancedTCA Advanced Telecommunications Computing Architecture Blade Board These terms are used interchangeably to refer to an assembled PCB card that plugs into a chassis slot CPU Central Processing Unit A microprocessor DPM Defects Per Million ENA Enable FIT Failures In Time Field Replaceable Unit Logically represents an entity that can be queried for sensor data FRU and perhaps an entity that has a satellite management controller Example FRUs can include an entire SBC or a power supply HA Highly Available Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 7 Document Organization Table 1 Acronyms and Terms Sheet 2 of 2 Term Definition Hot Swap A specific specification from the PICMG 3 0 Spec l2C A two wire serial bus Licensed by Phillips Semicond
6. 6 5 PowerGonsu mbptlOh ci ceo totae kan kinar k rea kan naa di kh A ee cut ue Id Eh k M R AW h KAW n WA HEVA 36 7 Warranty Information ess 37 7 1 Intel NetStructure Compute Boards and Platform Products Limited Warranty 37 7 2 Returning a Defective Product RMA lllllli kk kk nennen 37 1 2 1 JForithe Americas oett baka a ka ben kur y tatem ee a Rand a 37 7 2 2 For Europe Middle East and Africa EMEA sene 38 74 2 9 For Asia and Pacitic APAC siiiscccssccccsiesccasceavaycesvaasesnecdnnssdecsesuyes la wela Zek seni kela Hela k 38 7 2 4 Limitation of Liability and Remedies ee e 39 8 Customer SuppotLt 2 2 med k da asse eo oe each Ge weet Seah ecc EMER U db bn V ec 40 8 1 erte 40 8 2 Technical Support and Return for Service Assistance 4 40 9 9 Sales Assistance uie de e kera arp ac antes desde ca DR Ge cR bedana k n Bde 40 8 4 Product Code Summary EiuuE Eka kk kek k ke k kk Kek kk KA kk KA kK KA KA KAK snnt nnns 40 9 jer laii rg 41 10 Agency ImfOnimation m 42 10 1 North America FCC Class 42 10 2 Canada Industry Canada ICES 003 Class Ai 42 10 3 European Union eiie ccena retta ede k n ertt kK eese Voeux e kalara d 42 DNE VALIDER 44 11 1 Safety e LEE 44 Figures 1 Relationship of RTM to Front Board 9 2 Default Grounding on MPRTMOO2O
7. 44 0 1793 641440 Intel NetStructure MPRTM0020 Technical Product Specification April 2006 43 Safety Warnings ntel Safety Warnings 11 11 1 44 Warning Safety Precautions 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 and understand the precautions associated with safety symbols written warnings and cautions before accessing parts or locations within the unit System for Restricted Access Use Only To avoid the risk of electrical shock hazard special measures and precautions must be taken when using these products Access to this equipment must be restricted by locating this equipment where access can only be gained by SERVICE PERSONNEL who have been informed about the reasons for the restrictions applied to the location and about any precautions that shall be taken Access is through the use of a TOOL lock and key or other means of security and is controlled by the authority responsible for the location This product should only be used by SERVICE PERSONNEL who have the knowledge and training required to work with products of this type To avoid shock ensure that the chassis power cables are connected to a properly wired and grounded receptacle The system containing these boards should not be operated with the faceplates
8. For this reason the handle switch on the non intelligent RTM is combined with the handle switch on the SBC If either handle switch is opened both the non intelligent RTM and the SBC will take the appropriate action for removal When the SBC is inserted into the system the non intelligent RTM is initialized to MO state The SBC IPMC then checks for the presence of the non intelligent RTM If the non intelligent RTM is present then the non intelligent RTM M State is set to M1 In the M1 state the SDR records in the non intelligent RTM FRU device are incorporated with the IPMC SDR records The non intelligent RTM then remains in M1 until the SBC IPMC reaches M4 At that point the non intelligent RTM transitions to M2 and waits for activation from the Shelf Manager Once the Shelf Manager activates the non intelligent RTM the non intelligent RTM transitions to M3 and waits for its power budget to be granted Once the power budget is granted the non intelligent RTM transitions to M4 and stays there until a deactivation is received from the Shelf Manager or a handle switch is opened Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 5 5 5 6 5 7 RTM Management Architecture Power Budget Management The SBC IPMC has inherent knowledge of the non intelligent RTM power requirements The IPMC will handle power negotiation commands from the Shelf Manager that are targeted for the non intelligent RTM FRU ID By doing t
9. P31 Signal Descriptions Sheet 2 of 2 Pin Signal Comments AG F6 LNK x ACT x Represent the link activity and speed LEDs for the Fabric Interface Gigabit Ethernet that are SPD1000 x routed to the RTM G6 F7 Reserved Reserved PCI Express reference clocks Any SBC providing PCI Express pins A3 H4 must provide PCle_CLK h i G7 H7 PCle CLK these signals Not supported for the MPRTM0020 RTM A8 H9 Reserved Reserved A10 USB data signals Note that the RTM s 5 V power for the USB connections must be derived off B10 USB 0l USBIO the 12 V rail C10 DSR Data Set Ready signal for COM1 RS 232 connection D10 RXD Received Data signal for COM1 RS 232 connection E10 RTS Ready to Send signal for COM1 RS 232 connection F10 TXD Transmit Data signal for COM1 RS 232 connection G10 CTS Clear to Send signal for COM1 RS 232 connection H10 DTR Data Terminal Ready signal for COM1 RS 232 connection 4 3 7 2 Zone 3 Rear Transition Module Data Connector P32 The P32 connector on the RTM connects to J32 on the MPCBLO0020 Single Board Computer and is used to route the T1 E1 signals from the PMC slots on the SBC to the RTM Table 11 provides the pinout of the P32 connector AP1 x designates T1 E1 signals that are routed from PMC 1 while AP2 x designates T1 E1 signals routed from PMC 2 Table 11 RTM Connector Zone 3 P32 Pinout Pin A B C D E F G H 1 APi O TX APi I TX AP1 0JRX AP1 0 RX APIH TX APi 1 TX AP1 1JRX AP1 1
10. blank panels or covers removed Some voltages that are on the board and inside the chassis present an electrical shock and or energy hazard to the user Keep hands out of the chassis when power is applied or when performing hot swap of the boards Intel NetStructure MPRTMO0020 Technical Product Specification April 2006
11. input voltage to the SAS re driver IC SAS Redriver The MPCBL0020 Single Board Computer implements optional SAS storage access via the MPRTMO0020 RTM SAS is a 3 Gbps SERDES style bus and a redriver is added on the RTM to effectively detect and correct the SAS OOB signals at a proper amplitude The specific SAS re driver that was used is the PMC Sierra PM8380 Quad SMX 3G SATA SAS Mux Demux The RTM implements the PM8380 device as a 1 1 re driver The four host ports are connected to the SBC via the Zone 3 connector The four SAS ports of the B Load side Mux port are connected to the External SAS connector The A Load side Mux port is left unconnected The PM8380 has its configuration straps set to operate in re driving mode rather than in Mux mode The B Load side Mux port is configured for the default SAS amplitude pre emphasis and equalization Figure 14 illustrates the SAS port distribution on the RTM Only three SAS ports are routed to the MPRRTMO0020 RTM because the first SAS port from the SAS HBA port 0 is used for the on board SAS hard drive on the MPCBL0020 SBC Physical Breakdown of SAS Ports Distribution MPCBLO0020 SBC MPRTMO0020 RTM A Port Not Connected External cable to a SAS JBOD Board Status LEDs The Hot Swap Out of Service and Health LEDs on the RTM faceplate are fronted by the MPCBL0020 Single Board Computer These LEDs have iden
12. on a Front Board and most of the cable connections especially copper cables are made from the RTM This allows the Front Board to be replaced without the need to reinsert a large number of cables in the correct order In AdvancedTCA systems the Front Board mates directly with the RTM as shown in Figure 1 Figure 1 Relationship of RTM to Front Board Front Board The Intel NetStructure MPRTM0020 Rear Transition Module is designed specifically to work with the Intel NetStructure MPCBL0020 Single Board Computer The MPRTMO0020 RTM includes the following interfaces and features One serial port One USB 1 1 port Two Gigabit Ethernet RJ45 ports from the Fabric Interface Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 9 Functional Overview ntel e One SAS x4 connector to support external SAS JBOD Only three of these SAS ports on the RTM are usable the first SAS port is used by the MPCBL0020 Single Board Computer s local SAS drive Six TI El ports with transformer and protection circuitry designed primarily for intra building applications I2C connectivity to the SBC for remote management capabilities OOS and Health LEDs Hot Swap status LED This LED mirrors the indication of the HS status LED on the MPCBL0020 Single Board Computer since the MPRTM0020 RTM itself is not hot swappable P30 power connector P31 P32 and P33 HM ZD connectors for SBC
13. sales office or your distributor to obtain the latest specifications and before placing your product order Copies of documents which have an ordering number and are referenced in this document or other Intel literature may be obtained by calling 1 800 548 4725 or by visiting Intel s website at http www intel com Intel Intel logo and Intel NetStructure are trademarks or registered trademarks of Intel Corporation or its subsidiaries in the United States and other countries Other names and brands may be claimed as the property of others Copyright Intel Corporation 2006 All rights reserved 2 Intel NetStructure MPRTM0020 Technical Product Specification April 2006 intel Contents DOCUMENT ORGANIZATION met M 7 LE Acom ms and Terms ente E eae ape ir En deno P nae k REIR e e DP ee E ak Al 7 MU 9 Operating the gc 11 3 1 MNTOGUGTION Rc 11 3 2 RTM Installation Procedure Li 4j4444xxx 44 2 kak kik kk kk kaka sa kekan eka 4 k ka ka k da nnne 11 3 3 RTM Removal Procedure ixlsalkdkex daklad daah kulilka k eren nennen nennen nnns 11 3 4 Digital Ground to Chassis Ground Connechon ii k eke 12 Module COMmpOmennts tai k 4 i ixi iere Eka M S H kn HER HIR kk kL SR ka BERE Eku aate d K k n erk a DR u AD cana ER HA R 14 4 1 BlOCK Diag ami EE 14 42 Physical E8yOUt gggg_D_ _b
14. signals On board power conversion from 12V supplied by the SBC via P30 connector ADM1026 for voltage monitoring storing FRU and SDR data Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel Operating the Unit Operating the Unit 3 3 1 Introduction The Intel NetStructure MPRTM0020 Rear Transition Module is a non intelligent RTM A non intelligent FRU does not have a remote management controller RMC on board to communicate with the SBC IPMC Instead all of the non intelligent RTM sensors and FRU device information is made available to the IPMC through direct device access This is usually done via dummy DC sensor and storage devices It is the responsibility of the IPMC to make the non intelligent RTM look like a separate intelligent FRU controller to the rest of the system 3 2 RTM Installation Procedure The MPRTMO0020 RTM is mechanically compliant with the PICMG 3 0 specifications Revision 2 ECNI The RTM must be installed in an AdvancedTCA chassis prior to installing the MPCBL0020 Single Board Computer Install the RTM as follows 1 Remove the rear air management blade from an AdvancedTCA chassis where applicable 2 Locate the slot where the RTM is to be installed in the chassis The RTM must be installed in the same slot number as the MPCBLO0020 Single Board Computer 3 Open the top and bottom ejector latches and slide the RTM into the chassis by aligning to the guide rails on
15. B Connector Serial Port Connector T1 E1 RJ 48C from PMC1 T1 E1 RJ 48C from PMC2 T1 E1 RJ 48C from PMC3 Hot Swap LED 16 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 4 3 1 Figure 7 Module Components Components Description The following sections describe the components shown in Figure 4 through Figure 6 Serial Port Interface One serial port RS 232 connector is present on the RTM This connector provides access to the COMI serial port from the MPCBL0020 Single Board Computer which is also routed to the front panel of the SBC Both connections are active but only one can be used at any given time The line driver receiver for the serial port resides on the SBC The RTM only provides a connector along with EMI EMC filtering The serial port uses an RJ 45 connector which is located on the RTM faceplate as shown in Figure 6 on page 16 Figure 7 shows the serial port connector s outline and Table 2 provides the pin out information for this connector Because this serial port is the COM port from the MPCBL0020 Single Board Computer the port is inactive when the Serial Over LAN feature is activated on the SBC the serial port data from COMI is routed to the Base Interface Gigabit Ethernet adapter in this situation Serial Port Connector Optional Top Ground Tabs E Shielded Modular Jack Assembly Optional Side ert Ground tabs 2 places lace
16. Control Connectors The MPRTMO0020 implementation includes three data connectors P31 P32 P33 that mate directly to the MPCBLO0020 Single Board Computer without connecting through the backplane Each Zone 3 data control connection consists of 120 pin HM Zd connector with 40 differential pairs which allows high speed signals to be passed between the boards 4 3 7 1 Zone 3 Rear Transition Module Data Control Connector P31 The signals that are routed through P31 are the IEEE 1149 1 JTAG signals SAS storage ports USB 2 0 signals and serial and fabric interface Ethernet ports Table 9 provides the basic pinout of the connector and Table 10 provides more detail about the signals Table 9 RTM Connector Zone 3 P31 Pinout Pin A B C D E F G H 1 RMD_INT Reserved Reserved TDI Reserved TDO Blue HS LED Reserved 2 SA 1 TX SA 1 TX SA 1 RX SA 1 RX SA 2 TX SA 2 TX SA 2 RX SA 2 RX 3 SA 3 TX SA 3 TX SA 3 RX SA S RX No Connect No Connect No Connect No Connect 4 FI DA14 FI DA1 Fl_DB1 FI DB1 Fl DC1 FI DC1 Fl DD1 FI DD14 5 FI DA24 FI DA2 FI DB2 FI DB2 FI DC24 FI DC2 FI DD2 FI DD2 6 LNK 0 ACT 0 SPD1000 0 LNK 1 ACT 1 SPD1000 1 Reserved Reserved 7 Reserved Reserved Reserved Reserved Reserved Reserved PCle_CLK PCle_CLK 8 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved 9 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved 10 USB 0 USBIO DSR RXD RTS TX
17. D CTS DTR Table 10 P31 Signal Descriptions Sheet 1 of 2 Pin Signal Comments At RMD INT This signal is driven by the RMD on non intelligent RTMs to alert the SBC that there is a sensor needing attention It is required on all SBCs and RTMs B1 C1 Reserved Reserved Test Data In signal as defined in JTAG SBCs must connect this signal into the test data chain D1 TDI i e in line with TDO connections from other chips but must have a means to bypass this connection if an RTM is not installed E1 Reserved Reserved F1 TDO Test Data Out signal as defined in JTAG See TDI comments above Output of RTM G1 Blue HS LED Blue Hot Swap LED H1 Reserved Reserved A2 D3 SA x TX SA x TX Storage architecture signals for transmit and receive portions of differential pairs Three SAS SA x RX SA X RX ports are routed to the RTM E3 H3 No Connect No Connect PHY level 10 100 1000Base T signaling routed to the RTM Row 4 is for the first Ethernet port A4 H5 FI Dxv FI Dxy row 5 is for the second Ethernet port These Ethernet ports are routed from the Physical AAY Ea Py Level Fabric Interface of the MPCBL0020 Single Board Computer and have gone through the magnetics on the SBC Intel NetStructure MPRTM0020 Technical Product Specification April 2006 23 Module Components intel Table 10
18. RX 2 AP1 2 TX AP1 2 TX AP1 2 RX AP1 2 RX AP1 3 TX AP1 3 TX AP1 3 JRX AP1 3 RX 3 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 4 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 5 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 6 AP2 0 TX AP2 1 TX AP2 OJRX AP2 OJRX AP2 1 TX AP2 1 TX AP2 1JRX AP2 1 RX 7 AP2 2 TX AP2 2 TX AP2 2 RX AP2 2 RX AP2 3 TX AP2 3 TX AP2 S RX AP2 3 RX 8 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 9 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 10 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 4 3 7 3 Zone 3 Rear Transition Module Data Connector P33 The P33 connector on the RTM connects to J33 on the MPCBLO0020 Single Board Computer and is used to route the remainder of the T1 E1 signals from PMC slot 3 on the SBC to the RTM Table 12 provides the pinout of the P33 connector 24 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel AP3 x indicates that these T1 E1 signals are routed from PMC 3 Module Components Table 12 RTM Conne
19. Signal Descriptions Pin Signal Comments M Logic GND Logic ground connection long contact provides return path for power and signal connections Shelf ground connection long contact provides safety ground contact between A2 j Shelf GND SBC and RTM B1 Logic_GND Logic ground connection long contact see above B2 43 3V MP Management power long contact provides up to 100mA to power management Steeg system on RTM Used exclusively for management power C1 IPMI_Sclk IPMB I2C clock signal medium contact C2 IPMI Sdata IPMB GC data signal medium contact This signal is connected to the on board ADM1026 for temperature and voltage monitoring on the RTM D1 12V 12V RTM payload power short contact provides up to 420mA to power active devices other than management system on RTM See additional requirements D2 12V below Presence Signal active low short contact the RTM connects this signal to E1 PS1 Logic_GND through a 100 Ohm resistor to facilitate manufacturing test The Front Board reads this signal to understand if an RTM is fully inserted Module enable signal active low short contact the Front Board sets this signal high E2 SES to reset the RMC RMD 22 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel Module Components 4 3 7 Zone 3 Rear Transition Module Data
20. Technical Product Specification April 2006 intel Detailed Specifications Detailed Specifications 6 6 1 Dimensions and Weight The weight of the baseboard is 1 14 kg 2 5 lbs with packaging materials 6 2 Environmental Specification The test methodology is a combination of Intel and NEBS test requirements with the intent that the product will pass pure system level NEBS testing The following table summarizes environmental limits both operating and nonoperating Table 16 Environmental Specifications Parameter Conditions Detailed Specification Operating Normal 5 C to 40 C Temperature Ambient Operating Short term 5 C to 55 C Storage 40 C to 70 C Operating 15 90 non condensing at 55 C Humidity Storage 5 95 non condensing at 40 C 4 000 m 13 100 ft Operating Altitude Note may require additional cooling above 1800 m 5 900 ft Storage 15 000 m 49 200 ft Sine sweep 5to 100 Hz 1G 0 25 Octave minute 100 to 500 Hz 1G 1 Octave minute Operating Random profile L 5Hz Q 0 01 g2 Hz to 20 Hz 0 02 g2 Hz slope up 20Hzto 500 Hz 9 0 02 g Hz flat 8 13 g RMS 10 minutes per axis for all three axes 5 Hz to 50 Hz 0 5 G 0 1 Octave minute Storage 50 Hz to 500 Hz 3 G 0 25 Octave minute Operating 30 G 11 ms half sine Shock Storage 50 G 170 inches second trapezoidal 6 3 Mechanical Specifications 6 3 1 Board Outlin
21. WA WARA ranae nnns 30 5 1 IR TO UC D per 30 5 2 RTM FRU Control aii ma s ra ime mit ke deha kar KR nak a ki savy RI ked Dada ay dran k ka dad keki kur d kak 30 5 3 Zal rne tite te eoe eeu trud sv vadat Cha UU Ve nr 30 5 4 Power Budget Management cs i yu n xi kkl ae naka kan k eka keka ka nnne R k kk kaw rnnt n eka k nnne rennen 31 5 5 LED Manageme u r g mnmmnmoppmggggwq dti 31 5 6 SDR Pr EE 31 5 7 RIM Sens0r Proxy riisiin teo ean kek eu Eae ute owed e Wa H k d ance kk nek da a yan n k n 31 Detailed Specifications cccecccseseceeeeeeeeeeeeenseeeeseceeseseeeeesaeseseeeeesesaeseseeeeessaesasaeeeeesaeasaneeeeneees 33 6 1 Dimensions and Weight a kanek kalk n nen 33 6 2 Environmental Specification A 33 6 3 Mechanical Specifications ELLii Eke kk kk kak kk kk KAK KA KAK KAKA KA KA KA KAK KA 33 6 3 1 Board Outline suc w n sakin Gee Dti ea di H na nara ce edt ea b r odan n naka 33 6 4 Reliability Specifications sssssssssseseseeneenenneeeneennenn KA KAK KAKA KA KK KAKA KAR KA KRA 35 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 3 6 4 44 Mean Time Between Failure MTBF Specifications esssessssss 35 6 4 1 4 Environmental ASSUMPTIONS LL EEE kk kk KK kk 35 6 4 1 2 General Aeeumptions essent 35 6 4 1 3 GeneralNotes lande pak n nnns deal b a eya nennen 36
22. _D_p gaggmnELg mmm SsZTTZT _ _ 15 4 3 Components Description EEEEk kk kek nennen enne treten KAKA A KK AA KA KA KAR KRA 17 4 3 1 Serial Port lille Ha i schist dvi eh e sivan WW ken w k na WEL sk ee 17 43 2 USB N te T BOO ee daa ked kay kwa keb l rkan kany Leka waze ci i Deer Rate ey ean dal na an 18 4 3 3 Gigabit Ethernet Interface EEE kk kk kek kk kk kK k kk nennen 18 4 3 4 SAS Connector Interface u EEE kek kk kek kk nennen snnt KA KA KA 19 4 3 5 TIET Connector Interface 20 4 3 6 Zone 3 Rear Transition Module Power Connector P30 uE U 21 4 3 7 Zone 3 Rear Transition Module Data Control Connectors 23 4 3 7 1 Zone 3 Rear Transition Module Data Control Connector P31 23 4 3 7 2 Zone 3 Rear Transition Module Data Connector P32 24 4 3 7 3 Zone 3 Rear Transition Module Data Connector P33 24 43 8 Alignment EE 25 4 3 9 ADM1026 Controller u Ek eke ke kek kek kek nnne nnne ns 25 4 3 10 Power Supplies nd Kelik Madan baza da na sana n n n a k a lara ad R eka k la Ew eda kek n Va bel n W N 26 Ca EE TEE 27 4 3 12 Board Status LEDS niit terere eter eec anit dle Gate 27 4 3 13 RJ 45 Gigabit Ethernet Port LED 28 RTM Management Architecture eeeeeeeeeeeeeeeeee eene nennen nnne nnn WAAR KAW WAAR A
23. ain input voltage for the RTM 43 3 V SUS voltage powers the management circuitry on the RTM ADM1026 I C pullup etc Voltage regulation on the RTM is used to generate the additional required voltages as shown in Figure 13 Figure 13 RTM Power Distribution putvi P30 from M PCBg 0020 I I 12V TaN ON 5V gt I Converter l I DV A 3V j L Converter 3 3V gt l l I l 3 3V A 8V T Converter 3 3V_SUS r 3 3V AV 5V_SUS geg i L gt Converter l I I i ForM anagem entC icuitry The four voltages that are generated on the RTM are used as follows 5V_SUS The 5V_SUS is mainly used as an input voltage to drive the blue Hot Swap LED It is generated from the 3 3V_SUS using a boost regulator 5V The 5 V payload voltage is generated from the 12 V power To increase the power conversion efficiency a switching regulator is added The 5 V is mainly used for USB power and also used as a supply to 5 V 3 3 V linear regulator e 43 3V The 3 3 V voltage is used to drive the components on the SAS re driver circuitry This voltage is also used to drive the Gigabit Ethernet LINK ACTIVITY LEDs on the RTM 26 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel 4 3 11 Note Figure 14 4 3 12 Module Components 1 8V The 1 8 V voltage is used as the
24. astrophic failure Catastrophic failure rates will vary based on application environment and features critical to the intended function Table 18 Reliability Estimate Data Failure Rate FIT 913 failures in 109 hours MTBF 1 095 000 hours 6 4 1 1 Environmental Assumptions Failure rates are based on a 40 C ambient temperature Applied component stress levels are 50 voltage current and or power Ground fixed controlled environment with an environmental adjustment factor equal to 1 0 6 4 1 2 General Assumptions Component failure rates are constant Board to system interconnects included within estimates Non electrical components screws mechanical latches labels covers etc are not included within estimations Printed circuit board is considered to have a 0 FIT rate Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 35 Detailed Specifications ntel 6 4 1 3 General Notes e Method I Case I Based on parts count Equipment failure is estimated by totaling device failures rates and quantities used Quality Level II Devices purchased to specifications qualified devices vendor lot to lot controls for AQLs and DPMs Where available direct component supplier predictions or actual FIT rates have been used 6 5 Power Consumption The maximum power consumption of the MPRTM0020 is 5 watts The typical power consumption is 4 watts with SAS re
25. ctor Zone 3 P33 Pinout Pin A B C D E F G H 1 AP3 0 TX AP3 1 TX APS OJRX AP3 0 RX AP3 1 TX AP3 1 TX AP3 1 RX AP3 1 RX 2 AP3 2 TX AP3 2 TX APS Z RX AP3 2 RX AP3 3 TX AP3 3 TX APS S RX APS S RX 3 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 4 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 5 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 6 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 7 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 8 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 9 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 10 No Connect No Connect No Connect No Connect No Connect No Connect No Connect No Connect 4 3 8 Alignment Blocks The MPRTMO0020 Rear Transition Module implements the rK1 and A2 alignment blocks at the top of Zone 2 and Zone 3 as required in Section 2 4 4 of the PICMG 3 0 Specification The Zone 2 alignment block rK1 is assigned a keying value of 11 and uses Tyco 1 1469373 1 or equivalent The Zone 3 alignment block A2 is assigned a keying value of 7 3 and uses Tyco 7 1469373 3 or equ
26. ctor dinem 18 RJ 45 Ethernet Connector Pinout essen eene nnne KAK KA trennen KAK KA KI 19 SAS Connector PInout css c cen nescitur edet e nda aes e eta taa ed Ua aded aee uana eae dO Need dna 20 T47E1 Connector Pinout EE 21 P30 Connector PIRnoUt accen obtineret uat ra ebd doe baka da c n a Edd cde bur bd Cua ead aud 22 P30 Signal Descriptions e iere itti eret ated ed tu e eL dees k n Pind eed Gay ae sa 22 RTM Connector Zone 3 P31 Pinot 23 P31 Signal Descriptions iere pute bira eee i b na ka e ee date d a ea ka Be oo 23 RTM Connector Zone 3 P32 Pinot 24 RTM Connector Zone 3 P33 Pinot 25 GPIO Sig al Mapping rdi rest Gas riae nti nume sanded kadan a d ka dpa a LA e ye ka Rana k da h n 25 Board Status LED Descriptions sisl melaka rad a dra k aer aa din n e s s Q Nan eene tnis nnns 28 Sensor Data Record for HIM 32 Environmental Gpechications 4 inad lkae an kalak dial d entrent nene nnns nnn tenens 33 Board Gompofents 1 eiat kilala h r n b na ka K na dde di daa denna idk hd sura d n renean rds 35 Reliability Estimate Data 1 xaze nea kesana ke kekan n na hn d n ette Eka WEZ E Ne n dede pene te WBA WER W W N 35 aes sl CODES e 40 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 5 Revision History Date Revision Description Updated values for temperature sen
27. e The MPRTM0020 printed circuit board PCB is mechanically compliant with the PICMG 3 0 Specification dimensions of 322 25 mm x 70 00 mm The board pitch is 6HP Intel NetStructure MPRTM0020 Technical Product Specification April 2006 33 Detailed Specifications ntel Figure 17 below shows the locations of major components of the MPRTMO020 Table 17 lists the components shown in the illustration Figure 17 Component Layout 34 Intel NetStructure MPRTM0020 Technical Product Specification April 2006 n l ntel D Detailed Specifications Table 17 Board Components Component Function A SAS Retimer RMD ENA jumper Used to bypass the manageability by the MPCBL0020 SBC IPMC for debugging B purposes Not intended to be use in any field deployment because changing this default jumper affects the RTM manageability from the ShMC ADM1026 D Digital Chassis Ground Jumper 6 4 Reliability Specifications 6 4 1 Mean Time Between Failure MTBF Specifications Calculation Type MTBF FIT Rate Standard Telcordia Standard SR 332 Issue 1 Methods Method I Case I Quality Level II The calculation results were generated using the references and assumptions listed This report and its associated calculations supersede all other released mean time between failures MTBF and Failure in Time FIT calculations of earlier report dates The reported failure rates do not represent cat
28. ed 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 Electromagnetic Compatibility EMC emissions e CISPR22 EN55022 Class A EN300386 FCC Rules CFR 47 Part 15B Class A ICES 003 Class A Electromagnetic Compatibility EMC immunity CISPR24 EN55024 EN300386 Network Equipment Building System NEBS compliance The MPCBL0020 SBC meets the board level specifications as specified in the Intel Environmental Standards Handbook Telco Specification Document No A78805 01 The test methodology is a combination of Intel and NEBS test requirements with the intent that the product will pass pure system level NEBS testing Intel has performed limited NEBs testing Among these are GR 1089 CORE ESD radiated emissions E and H field conducted emissions radiated immunity and conducted immunity Telecom Compliance of T1 E1 Ports The TI El ports of the MPRTMOO020 have not been tested for compliance against any telecommunications standards It is the responsibility of the final integrator to obtain telecom attachment approvals for their combination of PMC and RTM T1 E1 configuration Intel NetStructure MPRTM0020 Technical Product Specification
29. ephone No 81 298 47 8920 Fax No 81 298 47 5468 Office Hours Monday Friday 0830 1730 Japan time 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 Intel NetStructure MPRTM0020 Technical Product Specification April 2006 In 7 2 4 Warranty Information 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 l
30. graphy Return Material Authorization RMA credit requests e mail address requests rma intel com Intel NetStructure MPRTM0020 Technical Product Specification April 2006 37 u Warranty Information l ntel e 7 2 2 7 2 3 38 Direct Return Authorization DRA repair requests e mail address uspss repair intel com DRA on line form http support intel com support motherboards draform htm Intel Business Link IBL http www intel com ibl Telephone No 1 800 INTEL4U or 480 554 4904 Office Hours Monday Friday 0700 1700 MST Winter PST Summer For Europe Middle East and Africa EMEA Return Material Authorization RMA e mail address EMEA Returns Intel com Direct Return Authorization DRA for repair requests e mail address EMEA Returns Intel com Intel Business Link IBL http www intel com ibl Telephone No 00 44 1793 403063 Fax No 00 44 1793 403109 Office Hours Monday Friday 0900 1700 UK time For Asia and Pacific APAC RMA DRA requests e mail address apac rma front end intel com Telephone No 604 859 3111 or 604 859 3325 Fax No 604 859 3324 Office Hours Monday Friday 0800 1700 Malaysia time Return Material Authorization RMA requests e mail address rma center jpss intel com 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 sugiyamakx intel co jp Tel
31. his the Shelf Manager should see the non intelligent RTM as a separate controller negotiating for a power budget LED Management The SBC IPMC has direct control over the LEDs on the non intelligent RTM Control of these LEDs is done through the IPMC system attention manager in the same way as other IPMC controlled LEDs Special fault classes are added to system attention manager tables to handle the failure and status state of the non intelligent RTM The non intelligent RTM sensors and M State machine are the contributors to the failure and status state When the non intelligent RTM is present its failures will contribute to the overall failure state of the IPMC Thus the non intelligent RTM LEDs will match the SBC LEDs SDR Proxy The SDR records for the non intelligent RTM are stored in a proprietary format in the internal use area of the non intelligent RTM FRU storage device When the non intelligent RTM reaches M1 state the non intelligent RTM SDR records are read out of the FRU device and stored in the IPMC The non intelligent RTM SDR records are then merged with the IPMC SDR records and made available through the Device SDR IPMI commands RTM Sensor Proxy The non intelligent RTM sensors are included in the sensor compliment programmed in the SBC IPMC The only difference is that the non intelligent RTM sensors are turned on and off with respect to the non intelligent RTM M State When the non intelligent RTM is in M4 state the senso
32. imitation of incidental or consequential damages so the above limitations or exclusions may not apply to you Intel NetStructure MPRTM0020 Technical Product Specification April 2006 39 Customer Support i ntel e Customer Support 8 8 1 8 2 8 3 8 4 Table 19 40 Customer Support This chapter offers technical and sales assistance information for this product 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 http www intel com network csp sales Intel Corporation Telephone in U S 1 800 755 4444 Telephone Outside U S 1 973 993 3030 FAX 1 973 967 8780 Product Code Summary Table 19 lists the MPRTM0020 product code Product Codes Product Code MM Description MPRTM0020S01Q 882004 MPRTM0020 Rear Transition Module Intel NetStructure MPRTM0020 Technical Product Specification April 2006 ntel Certifications Certifications 9 Safety EC60950 1 EN60950 UL CSA 60950 1 Hazardous substances The Intel NetStructure MPRTMO0020S00Q has been verifi
33. ivalent 4 3 9 ADM1026 Controller The RTM has an ADM1026 controller that collects sensor information from the board using the SMBus interface It also has memory to store FRU and user information The ADM1026 is managed by the MPCBL0020 Single Board Computer IPMC connected via the I2C bus These DC signals are routed from the SBC IPMC through the P30 connector on the Zone 3 The SBC IPMC communicates with the ADM1026 using an I2C address of 0x5C From the Shelf management perspective the RTM can be managed using the IPMB address fronted by the SBC MPCBLO0020 with a FRU Device ID of 0x04 Refer Section 5 for further information regarding management of the FRU and SDR data of the RTM Table 13 shows mapping between GPIO signal name and pin on the ADM1026 Table 13 GPIO Signal Mapping Sheet 1 of 2 GPIO Signals Pin on ADM1026 Hotswap Switch 3 OOS Green LED Control 6 OOS Red LED Control 5 Health Green LED Control 10 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 25 Module Components Table 13 GPIO Signal Mapping Sheet 2 of 2 GPIO Signals Pin on ADM1026 Health Red LED Control 9 USB_OC Monitor 12 Payload Power Enable 2 Payload PowerGood 43 4 3 10 Power Supplies The MPRTM0020 RTM needs several voltages that are not available from the SBC The P30 connection to the SBC only provides two power supplies 12 V voltage rail 420 mA maximum current is used as the m
34. le Board Computer only three of the four high speed serial interfaces is available on the SAS connector because one port is already used for the on board local SAS drive on the SBC The remaining three ports are available as ports 0 2 on the SAS connector as shown in Figure 14 on page 27 to enable users to connect to a SAS JBOD for remote storage purposes Figure 10 shows the outline of the SAS connector and Table 5 provides pinout information for the connector Refer to the Intel NetStructure MPCBL0020 Single Board Computer Compatibility Report for information on specific SAS cable and SAS JBOD models that have been tested and validated by Intel Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 19 n Module Components l ntel Figure 10 Table 5 Note 4 3 5 20 SAS Connector Pin 23 Pin 2 Pin 25 Pin 24 Pin 3 Pin 1 SAS Connector Pinout Pin Signal Name Pin Signal Name 1 GND 14 SAS TX3 2 SAS_RX0 15 SAS_TX3 3 SAS_RX0 16 GND 4 GND 17 SAS TX2 5 SAS_RX1 18 SAS_TX2 6 SAS RX1 19 GND 7 GND 20 SAS TX1 8 SAS_RX2 21 SAS_TX1 9 SAS RX2 22 GND 10 GND 23 DAG TX0 11 SAS_RX3 24 SAS_TX0 12 SAS RX3 25 GND 13 GND The SAS RX3 and SAS TX3 interfaces are not physically connected to the SAS controller on MPCBL0020 The physical routing for these signals exists on the MPRTM0020 but is not supported on the SBC See Fig
35. ont Board IPMC rather than using IPMB like an RMC does RTM Rear Transition Module SAS Serial Attached SCSI SDR Sensor Data Record An IPMI term Used to describe the name meaning and units of measure for a particular data value provided by a PM or BMC SEL Sensor Event Log An IPMI defined term Maintained by the BMC Shelf A shelf is equivalent to a chassis Shelf Manager A pluggable board that provides management functions allowing the chassis backplane to remain passive Although the term implies a dedicated module the Shelf Manager may be one function of a multi function module For example the Shelf Manager and a switch can be combined in a single physical module The Shelf Manager performs the BMC function within the chassis and provides remote management capabilities A two wire serial bus with slightly different electrical and timing characteristics than 12C This SMBus technology is owned by Intel Corporation SMC Satellite Management Controller Defined by IPMI Also known as a peripheral controller or peripheral management controller Switch Slot See Fabric Slot TPS Technical Product Specification Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel D Functional Overview Functional Overview 2 Rear Transition Modules RTM are important components in many telecommunications and embedded systems These environments place most of the active components
36. optional board Remember that the use of option boards declared compliant with the Directives by their manufacturer only gives presumption of compliance for the whole system It is the responsibility of the system supplier to verify that the requirements of the listed Directives are still met by the final system as supplied to the end user System integrators should take notice of further conditions expressed in the sections below and the Safety Information sheet supplied with each board This is a class A product In a domestic environment this product may cause radio interference in which case the user may be required to take adequate measures Intel NetStructure MPRTM0020 Technical Product Specification April 2006 n l ntel D Agency Information Compliance with the R amp TTE Directive The R amp TTE Directive includes its own safety and EMC requirements Although equipment declared compliant to the R amp TTE Directive does not require explicit declaration of conformity to EMC and Low Voltage Directives above conditions must also be met to satisfy the safety and EMC requirements of the R amp TTE Directive Intel Declarations of Conformity for the products covered by this notice can be found under the Network Building Blocks heading at http developer intel com design litcentr ce_docs Manufacturer s office in European Union Intel Corporation UK Ltd Pipers Way Swindon Wiltshire SN3 1RJ UK Tel 44 0 1793 403000 Fax
37. ort LEDs The RJ 45 connector for each of the Gigabit Ethernet ports on the RTM has two indicator LEDs integrated in the connector body As shown in Figure 15 the top LED represents the LINK LED while the bottom LED represents the SPEED LED RJ 45 Ethernet Port LEDs LINK SPEED Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel D Module Components The LINK LED has the following indications and meanings LED Off Link not established Steady green Link established but not active Flashing green Link established and currently active When the LINK LED is illuminated the SPEED LED has the following indications and meanings Steady green 10 100 Mbps connection Steady amber 1000 Mbps connection Note When the Fabric Interface Gigabit Ethernet links from the MPCBL0020 Single Board Computer are routed to the switch slots the Ethernet connections on the RTM are not active However the Speed and Link LEDs on the connectors will still indicate the operational status of the Ethernet ports Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 29 u RTM Management Architecture ntel RTM Management Architecture 5 5 1 5 2 5 3 30 Introduction This section describes the management support for a non intelligent Rear Transition Module RTM such as the MPRTMO0020 A non intelligent RTM FRU does not have a controlle
38. r on board to communicate with the SBC IPMC Instead all of the non intelligent RTM sensors and the non intelligent RTM FRU storage device are connected directly to the SBC IPMC This is usually done via dummy I C sensor and storage devices It is the responsibility of the SBC IPMC to make the non intelligent RTM look like a separate intelligent FRU controller to the rest of the system The feature that is not supported for RTMs is E keying since there are no PICMG requirements defined for non intelligent RTMs RTM FRU Control Since the non intelligent RTM does not have a payload the SBC IPMC only needs to implement the Cold Reset version of the FRU control command This command does not cause the IPMC to reset Instead the command causes all of the sensor and state information for the non intelligent RTM to be set back to startup values simulating a controller reset M state Machine The SBC IPMC is responsible for implementing the M State machine for the non intelligent RTM From the perspective of the Shelf Manager the non intelligent RTM looks like a separate managed FRU device with its own M state that is separate from that of the IPMC In order to do this the IPMC sends M State transition messages to the Shelf Manager accepts activation deactivation requests from the Shelf Manager and negotiates power budgeting as if it were a separate RTM controller The non intelligent RTM is not intended to be hot swapped in or out of the system
39. rs are turned on and scanned by the IPMC In any other M state the sensors are not scanned and will return a sensor not found completion code to sensor commands When the non intelligent RTM sensors are turned on the IPMC handles event generation and sensor access commands for the non intelligent RTM sensors just as it does for any other IPMC sensor Below is a list of the current non intelligent RTM sensors RTM 1 8V e RTM 3 3V RTM 3 3V Standby RTM 5 0V RTM 5 0V Standby RTM 12V e RTM Templi Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 31 RTM Management Architecture Table 15 Figure 16 32 RTM Temp2 RTM Temp3 RTM Power Status Sensor Data Record for RTM see Figure 16 for location Sensor Name Description ru RTM 1 8V For SAS Retimer 1 71 1 89 RTM 3 3V For other Integrated Circuits 3 10 3 47 RTM 3 3V SUS Early voltage for ADM1026 3 11 E 3 46 RTM 5 0V For USB Interface 4 71 B 5 23 RTM 5V SUS Early voltage for Hotswap LED 4 73 5 25 RTM 12V Main voltage rail for other ICs 10 71 13 10 peripherals RTM Temp 1 Internal ADM1026 U3 5 70 75 see Figure 16 for location RTM Temp 2 External Thermal Diode Q3 5 70 75 see Figure 16 for location RTM Temp 3 External Thermal Diode Q2 5 70 75 RTM Temperature Sensor Locations Intel NetStructure MPRTM0020
40. rwise 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 1 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 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 For the Americas Return contact information by geo
41. sor thresholds in Sensor Data April 2006 004 Record for RTM table Updated faceplate illustration Initial production release January 2006 003 Added new info on grounding procedure power supplies SAS redriver faceplate LEDs and RTM sensors Updated P31 pinout Added Operating the Unit RTM Management Architecture and Detailed Specifications chapters December 2005 002 September 2005 001 Initial release of this document 6 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel D Document Organization Document Organization 1 The Intel NetStructure MPRTMO0020 Rear Transition Module Technical Product Specification is organized as follows Chapter 1 Document Organization provides a table of acronyms and terms that are used throughout the document Chapter 2 Functional Overview describes the features of the Rear Transition Module Chapter 3 Operating the Unit includes information about installing and removing the Rear Transition Module Chapter 4 Module Components describes the functional components of the Rear Transition Module Chapter 5 RTM Management Architecture describes support for a non intelligent Rear Transition Module in an IPMC environment Chapter 6 Detailed Specifications includes detailed environmental mechanical and reliability specifications for the Rear Transition Module Chapter 7
42. the top and bottom of the chassis cage 4 Ensure that the RTM is fully installed in the chassis by locking the top and bottom ejector handles 5 Tighten the faceplate retention screws on the top and bottom of the RTM faceplate Ensure that the screws are torqued to 6 in lbs using a torque screwdriver 3 3 RTM Removal Procedure Removal of the RTM from the chassis uses the following procedure 1 Because the MPRTMO0020 is not an intelligent RTM removing the RTM causes the SBC to be shut down Ensure that the SBC is ready to be shut down before opening the bottom ejector handle of the RTM Remove all interface cables from the RTM faceplate connectors Loosen the RTM faceplate retention screws with a screwdriver Open the top and bottom ejector handles on the RTM amp A V N Remove the RTM from the chassis slot Intel NetStructure MPRTM0020 Technical Product Specification April 2006 11 Operating the Unit l ntel D 3 4 Digital Ground to Chassis Ground Connection Digital ground can be tied to chassis ground through a jumper P2 located near the bottom right corner of the RTM In the default grounding for the MPRTM0020 digital ground is isolated from chassis ground jumper link connecting NC to GND as shown in Figure 2 Figure 2 Default Grounding on MPRTM0020 To connect the digital ground to the chassis ground follow this procedure 1 Remove the jumper link from the default loca
43. tical state to the LEDs on the SBC faceplate and allow service personnel to verify the state of the board when servicing the board from the rear of the chassis Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 27 Module Components Table 14 4 3 13 Figure 15 28 Board Status LED Descriptions LED Function Hot Swap 7 Function Hot Swap as defined in AdvancedTCA 3 0 Specification It is also possible for a user to override the default behavior of the LED using AdvancedTCA FRU LED Control commands Possible States OFF BLUE SHORT BLINK LONG BLINK Blinking Blue Preparing for removal insertion Long blink indicates activation is in progress short blink when deactivation is in progress Out of Service Function Out of Service AdvancedTCA LED 1 RED The board is out of service OFF The board is running It is possible for a user to override the default IPMC behavior of the LED using AdvancedTCA FRU LED Control commands Possible States OFF RED AMBER Health Function Health AdvancedTCA LED 2 The SBC health is based on an aggregation of IPMI sensors like board temperature and voltage Green The SBC is healthy Red The SBC is not healthy It is possible for the user to override the default IPMC behavior of the LED using AdvancedTCA FRU LED Control commands Possible States OFF GREEN RED AMBER RJ 45 Gigabit Ethernet P
44. timer and USB consuming 2 watts each 36 Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 intel Warranty Information Warranty Information T 7 1 7 2 7 2 1 Intel NetStructure Compute Boards and 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 1 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 othe
45. tion on P2 connecting NC amp GND 2 Place the jumper link over pins 2 amp 3 to connect GND to EGND as shown in Figure 3 12 Intel NetStructure MPRTM0020 Technical Product Specification April 2006 Figure 3 Note Operating the Unit Digital Ground Connected to Chassis Ground Digital ground is also called logic ground Chassis ground is also known as shelf ground Intel NetStructure MPRTM0020 Technical Product Specification April 2006 13 Module Components Module Components 4 1 Block Diagram Figure 4 shows a functional block diagram of the RTM Figure 4 RTM Functional Block Diagram SAS e mm Pa E nana naa Port USB Port RJ 45 Serial Port USB From Mezz 1 2xT1 E1 From Mezz 2 SJ0 98DIS SIOWJOJSUBI 2xT1 E1 From Mezz 3 oe uxo emo e mn aUl n vm m UC Je9H Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel D Module Components 4 2 Physical Layout Figure 5 Rear Transition Module RTM Intel NetStructure MPRTM0020 Technical Product Specification April 2006 15 n Module Components l ntel Figure 6 identifies the connectors and LEDs on the RTM faceplate Figure 6 RTM Faceplate Connectors and LEDs SAS Connector Fabric Interface Port A OOS LED Fabric Interface Port B Health LED US
46. uctors lA 32 32 bit Intel Architecture y o Input Output IPMB Intelligent Plattorm Management Bus The bus that interconnects all boards in the chassis to the Shelf Manager Intelligent Plattorm Management Bus Channel 0 as defined in the IPMI v1 5 specification IPMB 0 This is the logical aggregation of IPMB A and IPMB B The use of IPMB Channels 1 through 7 are not defined in this specification IPMB R Local IPMI link that is on the carrier side of the IPMC device The IPMC shall proxy for all IPMB R devices AMCs and RTM IPMC Intelligent Plattorm Management Controller The portion of a FRU that interfaces to the AdvancedTCA IPMB 0 and represents that FRU and any device subsidiary to it IPMI Intelligent Plattorm Management Interface The overall specification for doing point to point management communication within the chassis over and 12C bus JBOD Just a Bunch of Drives Node Slot Any standard slot other than a fabric slot OOS Out of Service Peripheral Component Interconnect Bus technology used to interconnect components in a PCI computer PICMG PCI Industrial Computer Manufacturers Group PMC PCI Mezzanine Card Power Module Either a power supply or a power entry module RMC RTM Management Controller The IPMI controller on an RTM similar to an MMC RMCP Remote Management Control Protocol Defined by IPMI 1 5 RMD RTM Management Device A non intelligent device typically an ADM 0296 that communicates over 12C to the Fr
47. ure 14 Physical Breakdown of SAS Ports Distribution on page 27 for further details T1 E1 Connector Interface Six T1 E1 RJ 48 connectors are present on the RTM These connectors are designed primarily for intra building applications Figure 11 shows the physical outline of the E1 T1 connectors and Table 6 shows pinout information for each connector Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 n l ntel D Module Components Figure 11 RJ 48 Connector Table 6 T1 E1 Connector Pinout Pin T1 Signal E1 Signal 1 RX RNG RL1 2 RX TIP RL2 3 Not Used Not Used 4 TX RNG XL1 5 TX TIP XL2 6 Not Used Not Used 7 Not Used Not Used 8 Not Used Not Used 4 3 6 Zone 3 Rear Transition Module Power Connector P30 The P30 connector is a bladed connector originally developed for FutureBus applications Figure 12 illustrates the connector outline and Table 7 provides pinout information Table 8 provides additional descriptions of the signals on the connector Intel NetStructure MPRTMO0020 Technical Product Specification April 2006 21 Module Components Figure 12 P30 Connector Table 7 P30 Connector Pinout Pin Signal Pin Signal A1 L Logic_GND Shelf_GND B1 L Logic GND 3 3V MP C1 M IPMI Sclk IPMI_Sdata D1 S 12V 12V E1 S PS1 ENABLE Table 8 P30
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