TAMC020-TM - powerbridge.de
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1. unr upper non recoverable ucr upper critical unc upper non critical Inr lower non recoverable Icr lower critical Inc lower non critical Table 4 1 Temperature and Voltage Sensors 4 2 FRU Information The TAMCO20 TM stores the module FRU information in a non volatile EEPROM The actual FRU information data is shown below Area Size in Bytes Writeable Common Header 8 no Internal Use Area 0 no Chassis Info Area 0 no Board Info Area variable no Product Info Area variable no Multi Record Area ORCI IE Table 4 2 FRU Information TAMCO20 TM User Manual Issue 1 0 0 Page 9 of 21 TEWS 2 TECHNOLOGIES 4 2 4 Board Info Area Product Information Value Version 1 Language Code 0x00 English Manufacturer date time determined at manufacturing Board manufacturer TEWS TECHNOLOGIES GmbH Board product name Board serial number TAMCO20 TM determined at manufacturing see board label Board part number TAMC020 TM xxR xx 10 11 Table 4 3 Board and Product Info Area 4 2 2 Product Info Area Product Information Value Version 1 Language Code 0x00 English Product manufacturer TEWS TECHNOLOGIES GmbH Product name TAMC020 TM Board part model number Lo areal Product version V1 0 Rev A see board label Product serial number determined at manufacturing See board label2. TECHNOLOGIES Issue Description Date 1 0 0 Initial Issue October 2013 TAMCO20 TM User Manual Issue 1 0 0 Page 3 of 21 TENSE TECHNOLOGIES Table of Contents 1 PRODUCT DESCHIPTRON 6 2 TECHNICAL SPECIFICATION 7 3 HANDLING AND OPERATING INSTRUCTIONS c ceeeeeeeeee eene 8 3 1 ESD 8 3 2 Thermal Considerations 8 3 3 Mid size Option Usage Restrictions 8 4 IPMI SUPPORT rr 9 4 1 Temperature and Voltage 5 9 42 FBUlntformati n E 9 4 2 1 Into Are dee 10 4 2 2 Product INTO Area decet oerte res dete eet Bedv ed 10 4 2 3 Record Area iste dace 10 5 FUNCTIONAL BESCHIPTION siscesiccscssencientcdessencsncvecsrsnccassvansvanerdustanscuncseacdansvaxauendvane 12 LU MEM IP chc ce 12 52 WAG 12 53 e 12 INSTALLATION DIE EE CDD
3. FIGURE 6 2 COMPONENT HEIGHT VIOLATION ACCORDING TO 4 14 FIGURE 6 3 HOT SWAP STATES 15 FIGURE 7 1 FRONT PANEL LED VIEW eese me nem Inn emen ne rnnt 17 FIGURE 8 1 CONNECTOR 18 List of Tables TABLE 2 1 TECHNICAL 7 TABLE 4 1 TEMPERATURE AND VOLTAGE 5 8 9 TABLE 4 2 FRU INFORMATION cccccccccecccccccceccccucecsecccscecececaucecauceuuececeeeeuacecsesecaueeaaeeesececeueeaaeseneceeeaass 9 TABLE 4 3 BOARD AND PRODUCT INFO 10 TABLE 4 4 BOARD AND PRODUCT INFO 10 TABLE 4 5 ZONE INTERFACE COMPATIBILITY 10 TABLE 5 1 lt PRTM I2G ndn damn etn ken ann eaa naked bna 12 TABLE 5 2 RTM I O EXTENDER PORT 13 TABLE 6 1 VOLTAGE LIMITS ON PIM MODULES 15 TABLE 7 1 FRONT PANEL LEDS 17 TABLE 8 1 ZONE RP30 CONNECTOR PIN 9 19 TABLE 8 2 ZONE RP31 CONNECTOR
4. 3 V power rail The 12 V supply is capable of sourcing 100 mA each TAMCO20 TM User Manual Issue 1 0 0 Page 11 of 21 TENSE TECHNOLOGIES 5 Functional Description 5 1 JTAG The TAMC020 TM has no JTAG capable devices on board it just connects TDI with TDO so that it does not break the Front AMC s JTAG chain TCK and TMS are left unconnected 5 2 2 Bus The TAMC020 TM implements the following 12 devices addresses on the URTM I2C management bus Device Type Device I2C Address EEPROM AT24C32 1010000b Temperature Sensor 1001000b 8 Bit Port PCA9534 0100000b Table 5 1 RTM Devices 5 3 12C I O Extender The provides an 8 Bit I2C I O Extender device on the I2C management bus that is used for controlling certain management signals on the uRTM The TAMC020 TM implements the following pin signal assignment for the RTM I2C Extender device Payload Power Supply Status 7 0 Payload Power Supply status is not Good 1 Payload Power Supply status is Good Payload Zone 3 Enable Control 0 Payload Enable signal not active 1 Payload Enable signal active Enables PIM power supplies 5 Payload Reset Control Not used on the 20 EEPROM Write Protect Control 4 0 EEPROM write protection not active 1 EEPROM write protection active LED2 Green Control 3 0 LED off 1 LED on LED1 Red Control 2 0 LED off 1 LED on Hot Swap LED Blue Control 1 0 LED off 1 LED o
5. MIND SUD MEE 14 6 1 PMC Interface Module PIM 14 6 1 1 Using PIMs with Mid size 14 6 1 2 Component Height Violation on TAMCO20 TM 10R 14 6 1 3 Voltage Limits PIM 15 62 RTM instalation sensoa rcl 15 6 2 1 QMO IN 16 6 2 2 EXtraCtOM TR 16 63 ZONES ME M 16 7T INDICATORS aE 17 ros MEE ZbNDPIecilIlIe sduateas 17 7 1 1 Front Panel LEDS isi eiecit eni ei esa UNE 17 8 se AD PS 18 81 COV RIO Pe 18 8 2 CONnMEClONS AAE En ai Kaa SANEA Enana 18 8 2 1 Zone Connector S aa IET A E MN 18 8 2 2 PIM Slot CONNGCIONS isinan eaaa E EE tdeo tuns aye 19 TAMCO20 TM User Manual Issue 1 0 0 Page 4 of 21 TENSE TECHNOLOGIES List of Figures FIGURE 1 1 BLOCK 6 FIGURE 6 1 USING PIMS WITH MID SIZE 14
6. PIN ASSIGNMENT 0 cceecececeeececeeeeeeecceeeeeaueeeeeeaueeeeeeaneeees 19 TABLE 8 3 PIN ASSIGNMENT J10 20 TABLE 8 4 PIN ASSIGNMENT J14 PIM CONNECTOR 21 TAMCO20 TM User Manual Issue 1 0 0 Page 5 of 21 1 TEWS E TECHNOLOGIES Product Description The TAMCO20 TM is a standard Mid Size Full Size MTCA 4 compliant Micro Rear Transition Module for the TAMC261 It distributes all P14 I O lines of a PMC residing on the TAMC261 from the zone interface connectors to a PIM module slot Additional lines are connected to the M LVDS control and data lines of a TAMC261 2xR These distributed to normally unused pins of the J10 PIM slot connector so that a special PIM can be used to connect the M LVDS control and data lines to the PMC back I O signals According to MTCA 4 the TAMC020 TM provides 2 EEPROM I2C temperature sensor and 2 Extender device The I O Extender is used to provide various management signals on the RTM with the management being handled by the MMC of the TAMC261 PIM Slot ADF Connectors Figure 1 1 Block Diagram TAMCO20 TM User Manual Issue 1 0 0 Page 6 of 21 TENSE TECHNOLOGIES 2 Technical Specification AMC Interface Rear Transition Module conforming to MTCA 4 Mechanical Interface Module Type Double Mid Size Module 10R Module Type Doub
7. operation Without forced air cooling damage to the device can occur 3 3 Mid size Option Usage Restrictions Please note that the mid size module has restrictions to its usage because of a component height violation It is within the responsibility of the user to carefully check if the mid size module with its component height violation can be used in the system Otherwise damage to the TAMCO20 TM or the slot it is used in may occur Refer to the chapter Component Height Violation on TAMC020 TM 10R for details TAMCO20 TM User Manual Issue 1 0 0 Page 8 of 21 TENSE TECHNOLOGIES 4 IPMI Support The Front AMC module provides a Module Management Controller MMC that performs health monitoring hot swap functionality and stores the Field Replaceable Unit FRU information The MMC communicates via an Intelligent Plattorm Management Interface IPMI with superordinated IPMI controllers The TAMCO20 TM is controlled by the Front AMCs MMC and provides a temperature sensor FRU information and management signals for hot swap handle status and LED control 4 1 Temperature and Voltage Sensors The MMC on the Front AMC module monitors sensors on board the 20 and signals sensor events to the superordinated IPMI controller shelf manager Available sensors are listed in the table below Sensor Number Signal Type Thresholds Signal Monitored 0 Event Hot swap switch 1 Temperature ia LM75
8. the FRU information is incompatible to the Front AMC 6 2 2 Extraction Typical Extraction sequence 1 Pull the module handle out way a Blue LED starts Short Blink Hot Swap Negotiation in progress b Blue LED turns ON Module is ready to be extracted 2 Loosen the screws of the front plate 3 Pull the module handle out completely and extract the RTM from the slot 6 3 Zone 3 Keying The TAMCO20 TM provides the following male keying A i Rotation View Voltage Levels Dependent on PMC d Modules but gt 10V white clearance TAMCO20 TM User Manual Issue 1 0 0 Page 16 of 21 TEWS gt TECHNOLOGIES 7 Indicators This chapter describes board indicators such as LEDs 7 1 LED Indicators 7 1 1 Front Panel LEDs For a quick visual inspection the AMC module provides the following front panel LEDs z m E 5 Xm m Figure 7 1 Front Panel LED View LED Color State Description Off No Power or is ready for normal operation Short Blink Hot Swap negotiation extraction HS Blue Long Blink Hot Swap negotiation insertion URTM is ready to attempt activation by the system or En is ready to be extracted Off No fault FAIL Red On Failure or out of service status Off uRTM is not powered up OK Green is powered and OK Table 7 1 Front Panel LE
9. 0 31 31 32 32 33 33 34 34 35 35 36 36 37 lO 37 38 38 39 39 40 40 41 41 42 42 43 43 44 44 45 45 46 46 47 47 48 48 49 49 50 50 51 51 52 52 53 53 54 54 55 55 56 56 57 57 58 58 59 59 60 60 61 61 62 62 63 63 64 64 Table 8 4 Pin Assignment J14 PIM Connector TAMCO20 TM User Manual Issue 1 0 0 TENSE TECHNOLOGIES Page 21 of 21
10. Asset tag Product serial Number Table 4 4 Board and Product Info Area 4 2 3 Multi Record Area 4 2 3 1 Zone 3 Interface Compatibility Record Product Information Value Version 1 Type of Interface Identifier 0x03 OEM Interface Identifier Manufacturer ID IANA of the OEM 0x0071E3 TEWS TECHNOLOGIES GmbH OEM defined interface designator 0x81050000 0x8 TAMC 0x105 261 Table 4 5 Zone 3 Interface Compatibility Record If the Zone 3 Interface Compatibility record matches the Zone 3 Interface Compatibility record in the TAMC261 the TAMC261 considers the RTM to be compatible Otherwise the TAMC261 considers the URTM to be incompatible TAMCO20 TM User Manual Issue 1 0 0 Page 10 of 21 TEWS 2 gt TECHNOLOGIES The Zone 3 Interface Compatibility records are considered as matching if the records are the same length and are identical from offset 9 to the end of the record Otherwise the record is considered as not matching 4 2 3 2 Module Current Requirements As per TCA 4 specification the TAMCO20 TM current requirement must be included into the Front AMC module s Module Current Requirement record The TAMCO20 TM current requirements depend on the used PIM module If a passive PIM does not use of any of the PIM supplies the TAMCO020 TM current requirement is 0 A If an active PIM is used the TAMCO20 TM is able to supply up to 1 A on the 5 V and 1 A on the 3
11. Ds TAMCO20 TM User Manual Issue 1 0 0 Page 17 of 21 TENSE TECHNOLOGIES 8 I O Connectors This chapter provides information about user accessible on board connectors 8 1 Overview Figure 8 1 Connector Overview 8 2 Board Connectors 8 2 1 Zone 3 Connectors The TAMC020 TM provides two 30 pair ADF connectors RP30 and RP31 at the Zone 3 Interface Pin Count 30 contact pairs 60 signal contacts 30 GND pins Connector Type Advanced Differential Fabric ADF connector Source amp Order Info Erni 204781 or compatible TAMCO20 TM User Manual Issue 1 0 0 Page 18 of 21 TEWS 22 TECHNOLOGIES 8 2 1 1 RP30 ADF connector ground pins are not shown uRTM TMS TDI uRTM_SCL uRTM uRTM PWR uRTM SDA PS gRTM PWR RTM PWR DIR Tx 19 Rx 19 DIR Tx 18 17 DIR 17 DIR TCLKB DIR Rx 15 DIR Tx 13 DIR Rx 12 x 6 e 1o los Table 8 2 Zone 3 RP31 Connector Pin Assignment 8 2 2 PIM Slot Connectors The I O lines to PIM connector J14 are routed as 50Ohm single ended length matched signals but not as differential pairs This approach may support differential signaling e g for Ethernet etc but does not cause cross talk when used with cards that provide single ended I O Pin Count 64 Connector Type PMC Connector Source amp Order Info Molex 71436 2864 or compatible TAMC020 T
12. M User Manual Issue 1 0 0 Page 19 of 21 8 2 2 1 J10 Pin Signal Pin Signal 1 2 12V 3 4 5 5V 6 7 8 9 Rx 12 10 3 3V 11 DIR_Tx_12 12 Rx_12 13 GND 14 Tx_12 15 DIR_Rx_13 16 Rx_13 17 DIR_Tx_13 18 GND 19 DIR_Rx_14 20 Tx_13 21 5V 22 Rx_14 23 DIR_Tx_14 24 Tx_14 25 DIR_Rx_15 26 3 3V 27 DIR_Tx_15 28 Rx_15 29 GND 30 Tx_15 31 DIR_TCLKA 32 TCLKA 33 DIR_TCLKB 34 GND 35 DIR_TCLKC 36 TCLKA 37 5V 38 TCLKA 39 DIR_TCLKD 40 TCLKA 41 Rx 17 42 3 3V 43 DIR_Tx_17 44 Rx_17 45 GND 46 Tx_17 47 DIR_Rx_18 48 Rx_18 49 DIR_Tx_18 50 GND 51 DIR_Rx_19 52 Tx_18 53 5V 54 Rx_19 55 DIR_Tx_19 56 Tx_19 57 DIR_Rx_20 58 3 3V 59 DIR_Tx_20 60 Rx_20 61 12V 62 Tx_20 63 64 TAMCO20 TM User Manual Issue 1 0 0 Table 8 3 Pin Assignment J10 Connector TENSE TECHNOLOGIES Page 20 of 21 8 2 2 2 J14 Pin Signal Pin Signal 1 lO 1 2 lO 2 3 3 4 4 5 5 6 lO 6 7 lO 7 8 lO 8 9 9 10 lO 10 11 11 12 lO 12 13 13 14 lO 14 15 15 16 16 17 lO 17 18 18 19 19 20 20 21 21 22 22 23 23 24 24 25 25 26 26 27 27 28 28 29 29 30 3
13. TENSE The Embedded I O Company TECHNOLOGIES TAMC020 TM MTCA 4 PIM Carrier Version 1 0 User Manual Issue 1 0 0 October 2013 TEWS TECHNOLOGIES GmbH Am Bahnhof 7 25469 Halstenbek Germany Phone 49 0 4101 40580 Fax 49 0 4101 4058 19 e mail info Dtews com www tews com TAMCO20 TM 10R MTCA 4 PIM Carrier uRTM Mid Size front panel TAMCO20 TM 11R MTCA 4 PIM Carrier uRTM Full Size front panel TAMCO20 TM User Manual Issue 1 0 0 TEWS E TECHNOLOGIES This document contains information which is proprietary to TEWS TECHNOLOGIES GmbH Any reproduction without written permission is forbidden TEWS TECHNOLOGIES GmbH has made any effort to ensure that this manual is accurate and complete However TEWS TECHNOLOGIES GmbH reserves the right to change the product described in this document at any time without notice TEWS TECHNOLOGIES GmbH is not liable for any damage arising out of the application or use of the device described herein Style Conventions Hexadecimal characters are specified with prefix Ox i e 0 029 that means hexadecimal value 029E For signals on hardware products an Active Low is represented by the signal name with following i e IP RESET4 Access terms are described as W Write Only R Read Only RW Read Write R C Read Clear R S Read Set 2013 by TEWS TECHNOLOGIES GmbH All trademarks mentioned are property of their respective owners Page 2 of 21 TEWS 22
14. h a mounted standard PIM the Mid Size TAMC261 x0 violates the URTM component envelope defined in MTCA 4 The picture shows the violation of the hatched RTM component envelope in red 0 29 mm Figure 6 2 Component Height Violation according to MTCA 4 TAMCO20 TM User Manual Issue 1 0 0 Page 14 of 21 5 gt TECHNOLOGIES In uTCA systems the adjacent AMC module provides enough spacing for the protruding PIM module Despite the fact that the RTM component envelope is violated by the PIM the PIM does not cross the interboard separation plane and a minimum distance between the PIM and the adjacent URTM is guaranteed This allows improving the density of the system If you are not sure that the available spacing is sufficient it is strongly recommended to use the Full Size TAMCO20 TM 11R It is within the responsibility of the user to carefully check if the Mid Size module with its component height violation can be used in his system Otherwise damage of the TAMC020 TM or uRTM slot may occur 6 1 3 Voltage Limits on PIM Modules The specification limits the voltages on AMC modules to following thresholds DC voltage AC voltage Positive 27V 27V peak Negative 15V 15V peak Table 6 1 Voltage Limits on PIM Modules For PIM modules using voltages including I O voltages that exceed these thresholds an additional insulation to adjacent modules or carrier b
15. le Full Size Module 11R IPMI Support IPMI Version 1 5 Blue Hot Swap LED Front Panel LEDs Red Failure Indication LED LED1 Green Board OK LED2 Main On Board Devices I2C I O Extender PCA9534 Texas Instruments 2 EEPROM M24C32 ST Microelectronics 2 Temperature Sensor LM75 National Semiconductor Interface Connector PIM slot Physical Data Management Power 15mA typical 3 3V DC Power Requirements Payload Power Depends on mounted PIM With a passive PIM 0A 12V DC Operating 40 C to 85 C Temperature Range Storage 40 C to 85 C 865 000 h MTBF values shown are based on calculation according to MIL HDBK 217F and MTBF MIL HDBK 217F Notice 2 Environment Gg 20 C The MTBF calculation is based on component FIT rates provided by the component suppliers If FIT rates are not available MIL HDBK 217F and MIL HDBK 217F Notice 2 formulas are used for FIT rate calculation Humidity 5 95 96 non condensing Weight 2149 Table 2 1 Technical Specification TAMCO20 TM User Manual Issue 1 0 0 Page 7 of 21 TEWS 22 TECHNOLOGIES 3 Handling and Operating Instructions 3 1 ESD Protection The AMC module is sensitive to static electricity Packing unpacking and all other module handling has to be done in an ESD EOS protected Area 3 2 Thermal Considerations Forced air cooling is recommended during
16. n TAMCO20 TM User Manual Issue 1 0 0 Page 12 of 21 TEWS E TECHNOLOGIES Handle Status 0 Handle Switch closed 1 Handle Switch open Table 5 2 RTM I O Extender Port Assignment TAMCO20 TM User Manual Issue 1 0 0 Page 13 of 21 TEWS 2 TECHNOLOGIES Installation This chapter contains general notes regarding installing the URTM into a system 6 1 PMC Interface Module PIM Installation Before installing a PIM be sure that the power supply for the TAMCO20 TM is turned off The components are Electrostatic Sensitive Devices ESD Use an anti static mat connected to a wristband when handling or installing the components 6 1 1 Using PIMs with Mid size faceplates The TAMCO20 TM places the PIM directly at the AMC faceplate TAMCO20 TM Mid size faceplate provides a cut out to ease the PIM installation Pins of PIM l O connectors that protrude on PIM Side 2 may still contact the RTM front panel This is a potential hazardous electrical problem depending on the I O circuitry used Figure 6 1 Using PIMs with Mid size faceplates It is within the responsibility of the user to carefully check if a specific PIM can be used on a mid size TAMCO20 TM If you are not sure that the available spacing to conductive parts of the PIM is sufficient it is strongly recommended to use a TAMC020 TM with full size front panel 6 1 2 Component Height Violation on TAMC020 TM 10R Wit
17. oards becomes necessary 6 2 RTM Installation During insertion and extraction the operational state of the AMC is visible via the blue LED in the AMCs front panel The following table lists all valid combinations of Hot swap handle position and blue LED status including a short description of what s going on Blue LED On Off Long Blink Short Blink Handle Extraction Module can be Module i iti Hot swap Open extracted E Ing negotiation in Pulled out Insertion progress Module is waiting Extraction for closed Handle Hot swap P ep o D Module is active negotiation in ushed all way SV i rogress negotiation operating Figure 6 3 Hot Swap states TAMCO20 TM User Manual Issue 1 0 0 Page 15 of 21 TENSE TECHNOLOGIES 6 2 1 Insertion Typical insertion sequence 1 Insert the RTM module into its slot with the board edges aligned to the card guides 2 Fasten the screws of the front plate so the module cannot be pushed out by the Front AMC if it is inserted afterwards 3 Make sure that the module handle is pushed into the inserted position a Blue LED turns ON Module is ready to attempt activation by the system b Blue LED starts Long Blink Hot Swap Negotiation Module activation in progress c Blue LED turns OFF and green LED turns ON Module is ready and powered When the Blue LED does not go off but returns to the ON state
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