TAMC260 - powerbridge.de
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1. Sensor Number Signal Type Signal Monitored 0 Event Hot swap switch 1 Temperature LM75 1 2 Temperature LM75 2 3 Voltage 12V PWR 4 Voltage 1 5V 5 Voltage 12V PMC 6 Voltage 12V PMC Table 6 3 Temperature and Voltage Sensors TAMC260 User Manual Issue 1 0 4 Page 12 of 25 TEWS E TECHNOLOGIES 6 3 FRU Data Multi Records 6 3 14 Connectivity Record The TAMC260 provides a single x1 2 5 Gbps PCI Express Link on AMC Port 4 The PCI Express Interface works with SSC and non SSC PCI Express Reference Clocks 6 3 2 Module Current Requirement Record The TAMC260 FRU data provides the following Module Current Requirement record setting 2 2A 6 3 3 Clock Configuration Record The TAMC260 FRU data provides a clock configuration record for FCLKA FCLKA is a PCI Express Gen 1 clock receiver without PLL activated by the carrier and with a nominal clock frequency of 100 MHz TAMC260 User Manual Issue 1 0 4 Page 13 of 25 TEWS E TECHNOLOGIES 7 PMC to PCI Interface 7 1 PCI Signaling Voltage PMC modules are specified for 3 3V only 5V only or universal 3 3V or 5V PCI signal voltage operation The TAMC260 on board S V IO signal voltage level defines the PCI signal voltage level for the TAMC260 PCI bus A voltage key pin indicates the PCI signal voltage and prevents PMCs with a wrong signaling voltage from being plugged onto the carrier i PMC PCI Signaling Voltage TAMC2E0 cu se2. Otherwise damage of the TAMC260 or its slot to be used in may occur Refer to the chapter Component Height Violation on TAMC260 2x for details TAMC260 User Manual Issue 1 0 4 Page 8 of 25 4 PEX8112 Target Chip The PLX8112 PCle to PCI bridge provides the real connection between primary PCle link and the TEWS E TECHNOLOGIES PMC slot The bridge controls all PCI accesses and the frequency for the PMC access 4 1 PCI Express Configuration Space Register Mapping 4 1 14 PCI Compatible Configuration Registers Type 1 PCI 31 24 23 16 15 8 7 0 Read after CFG initialization Register write access Address 0x00 PCI Device ID PCI Vendor ID 10B5 8112 0x04 PCI Status PCI Command 0010 0000 0x08 PCI Class Code PCI Device Revision 060400 AA ID 0x0C PCI Built In Self PCI Header Type Internal PCI Bus PCI Cache Line Size 00 01 00 00 Test Latency Timer Not Supported 0x10 PCI Base Address 0 0000000C 0x14 PCI Base Address 1 00000000 0x18 Secondary Latency Subordinate Bus Secondary Bus Primary Bus Number 00 00 00 00 Timer Number Number 0x1C Secondary Status I O Limit UO Base 0220 00 00 0x20 Memory Limit Memory Base 0000 0000 0x24 Prefetchable Memory Limit Prefetchable Memory Base 0000 0000 0x28 Prefetchable Memory Base Upper 32 Bits 00000000 0x2C Prefetchable Memory Limit Upper 32 Bits 00000000 0x30 I O Limit Upper 16 Bits UO
3. After power on or PCI reset the PEX8112 loads initial configuration register data from an on board configuration EEPROM Only register values differing from default values are stored in the EEPROM For further information please refer to the PEX8112 manual Modifications are e Address Stepping is disabled PCI Command Register e Slot Clock Configuration is enabled Link Status Control Register e PCI Express Enable Device Initialization Register TAMC260 User Manual Issue 1 0 4 Page 11 of 25 6 1 Indicators For a quick visual inspection the TAMC260 offers 3 LEDs in the front panel and one on board LED 6 1 4 On Board Link LED To help diagnose system bring up problems the Link Up status of the PEX8112 can be visually inspected with an on board LED 6 Module Management TEWS E TECHNOLOGIES LED Color State Description Link Red Off Link On No Link Table 6 1 On Board Link LED 6 1 2 Front Panel LEDs LED Color State Description HS Blue Off No Power or module is powered Short Blink Hot Swap negotiation extraction Long Blink Hot Swap negotiation insertion On Module is ready to be powered or module is ready to be unpowered FAIL Red Off No fault On Failure or out of service status PMC Green Off Board is unpowered On Board is powered Blink PMC activity Table 6 2 Front Panel LEDs 6 2 Temperature and Voltage Sensors
4. 28 29 AD 19 5V 30 31 V I O AD 17 32 33 FRAME GND 34 35 GND IRDY 36 37 DEVSEL 5V 38 39 GND LOCK 40 41 PCI RSVD PCI RSVD 42 43 PAR GND 44 45 V I O AD 15 46 47 AD 12 AD 11 48 49 AD 09 5V 50 51 GND C BE 0 52 53 AD 06 AD 05 54 55 AD 04 GND 56 57 V I O AD 03 58 59 AD 02 AD 01 60 61 AD 00 45V 62 63 GND REQ64 64 Table 9 1 PMC J11 P11 and J21 P21 Pin Assignment TAMC260 User Manual Issue 1 0 4 TEWS E TECHNOLOGIES Page 21 of 25 9 3 PMC J12 P12 and J22 P22 Pin Signal Signal Pin 1 12V TRST 2 3 TMS TDO 4 5 TDI GND 6 7 GND PCI RSVD 8 9 PCI RSVD PCI RSVD 10 11 BUSMODE2 3 3V 12 13 RST BUSMODE3 14 15 3 3V BUSMODE4 16 17 PME GND 18 19 AD 30 AD 29 20 21 GND AD 26 22 23 AD 24 3 3V 24 25 IDSEL AD 23 26 27 3 3V AD 20 28 29 AD 18 GND 30 31 AD 16 C BE 2 32 33 GND PMC RSVD 34 35 TRDY 3 3V 36 37 GND STOP 38 39 PERR GND 40 41 3 3V SERR 42 43 C BE 1 GND 44 45 AD 14 AD 13 46 47 M66EN AD 10 48 49 AD 08 3 3V 50 51 AD 07 PMC RSVD 52 53 3 3V PMC RSVD 54 55 PMC RSVD GND 56 57 PMC RSVD PMC RSVD 58 59 GND PMC RSVD 60 61 ACK64 3 3V 62 63 GND PMC RSVD 64 Table 9 2 PMC J12 P12 and J22 P22 Pin Assignment TAMC260 User Manual Issue 1 0 4 TEWS E TECHNOLOGIES Page 22 of 25 9 4 PMC J14 P14 TEWS E TECHNOLOGIES
5. Hot Swap 8 1 1 Insertion Handle Blue LED Description Open Full extracted OFF Insert Module into slot Open Full extracted ON Module is ready to attempt activation Closed Pushed all way in Long Blink Hot Swap Negotiation Closed Pushed all way in OFF Module is ready amp powered Table 8 1 AMC Module Insertion When the blue LED does not go off but returns to the ON state the module FRU information is invalid or the carrier cannot provide the necessary power 8 1 2 Extraction Handle Blue LED Description Pulled out 1 2 OFF Request Hot Swap Pulled out 1 2 Short Blink Hot Swap Negotiation Pulled out 1 2 ON Module is ready to be extracted Open Full extracted ON Extract Module from slot Table 8 2 AMC Module Extraction 8 2 Installation of a PMC Module Before installing a PMC module be sure that the power supply for the TAMC260 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 If the PMC has a front panel remove the cover from the PMC front panel cut out of the TAMC260 Install the PMC at an angle so that the PMC front panel penetrates the PMC front panel cut out Then rotate down to mate with the PMC connectors on the TAMC260 If the PMC has no front panel simply plug in the PMC and leave the cover in the PMC front panel cut out of the TAMC26
6. R C Read Clear R S Read Set 2012 by TEWS TECHNOLOGIES GmbH All trademarks mentioned are property of their respective owners Page 2 of 25 TEWS TECHNOLOGIES Issue Description Date 1 0 0 Initial Issue May 2009 1 0 1 New Board Revision added Handling and Operation July 2009 Instructions 1 0 2 Added 2x Variants Mid Size Front Panel November 201 1 added TAMC260 Mid Size Option Usage Restrictions added 8 4 Component Height Violation on TAMC260 2x 1 0 3 Only available in RoHS compliant version December 2011 1 0 4 Expanded Table 7 1 to cover PMC suitability September 2012 added FRU Data Multi Records TAMC260 User Manual Issue 1 0 4 Page 3 of 25 Table of Contents TEWS E TECHNOLOGIES 1 PRODUCT DESCRIPTION 5 resa uenu renun nuu FRERE Ru E RRERRRPEFRPEDRRRRRRN Ru E RENS REN FRRE ER REV anaa 6 2 TECHNICAL SPECIFICATION nean nonu ain nonno nan nan nanis nanus nun uan na nnnenSs 7 3 HANDLING AND OPERATION INSTRUCTIONS eere 8 SN ESD Protectio iM siini RP 8 3 2 PCI B s Signaling Ke LC LG 8 3 3 Voltage Limits on PMCS ertet eege 8 3 4 TAMC260 Mid Size Option Usage Restrictions eese nennen 8 4 PEX8112 TARGET CHIP eege 9 4 1 PCI Express Configuration Space Register Mapping cernere 9 4 1 1 PCI Compatible Configuration Registers Type 1 9 4 1 2 PCI Compatible Capabi
7. The picture shows in red the violation of the hatched AMC component envelope Envelope 1 Envelope 2 Envelope 3 0 64 mm b 0 29 mm 1 65 mm 2 65 mm D IN Z7 t N Figure 8 2 Component Height Violation according to AMC O When using the TAMC260 2x on an AdvancedTCA carrier it is within the responsibility of the user to carefully check if the Mid Size module with its component height violation can be used Otherwise damage of the TAMC260 or the carrier may occur MTCA 0 although the adjacent board is also an AMC maintains the steps in the Mid Size AMC component envelope which were originally defined in AMC O to provide spacing for components on ATCA carrier boards MTCA 4 removes the steps in the Mid Size AMC component envelope This results in a reduced component height violation if the TAMC260 2x is used in MTCA 4 systems 0 64 mm 0 29 mm Figure 8 3 Component Height Violation according to MTCA 4 The TAMC260 2x is intended for the use in uTCA systems because the adjacent AMC module provides enough spacing for the protruding PMC module Despite the fact that the AMCs component envelope is violated by the PMC the PMC does not cross the interboard separation plane and a minimum distance between the PMC and the adjacent AMC is guaranteed This allows improving the density of the uTCA system If you are not sure if the available spacing is sufficient
8. The PMC J14 P14 I O connector routes the PMC WO lines directly to the appropriate pins of the SCSI V VHDCI Champ receptacle type cable connector The actual signal assignment of the PMC J14 P14 connector is PMC specific Pin Signal Signal Pin 1 I O 1 l O 2 2 3 1 0 3 UO 4 4 5 1 0 5 0 6 6 7 07 1 0 8 8 9 1 0 9 1 0 10 10 11 O11 0 12 12 13 I O 13 IO 14 14 15 015 l O 16 16 17 10 17 IO 18 18 19 I O 19 1 0 20 20 21 0 21 1 O 22 22 23 1 0 23 O 24 24 25 0 25 1 O 26 26 27 IO 27 1 O 28 28 29 1 0 29 1 0 30 30 31 UO 31 UO 32 32 33 1 0 33 1 0 34 34 35 UO 35 1 0 36 36 37 UO 37 1 0 38 38 39 1 0 39 1 0 40 40 41 IO 41 IO 42 42 43 1 0 43 IO 44 44 45 1 0 45 1 O 46 46 47 1 O 47 1 0 48 48 49 1 0 49 1 0 50 50 51 UO 51 O 52 52 53 1 0 53 1 0 54 54 55 IO 55 1 0 56 56 57 1 0 57 O 58 58 59 1 0 59 1 O 60 60 61 1 0 61 1 O 62 62 63 1 0 63 1 0 64 64 Table 9 3 PMC J14 P14 Pin Assignment TAMC260 User Manual Issue 1 0 4 Page 23 of 25 TEWS E TECHNOLOGIES 9 5 Front Panel I O Connector X1 SCSI V VHDCI Champ receptacle HDRA EC68LFDT SL or compatible wo E 092ONV L O T s x 7 9 ED OWd 1I v3 Lo eo co oe oa Figure 9 2 Front Panel I O Connector Numbering The PMC J14 P14 I O connector route
9. 0 After the PMC module has been installed it can be mounted on the TAMC260 using the mounting screws that come with the PMC module There are four screw mounting locations two at the PMC front panel and two at the standoffs near the PMC bus connectors TAMC260 User Manual Issue 1 0 4 Page 17 of 25 TEWS E TECHNOLOGIES Figure 8 1 Installation of a PMC Module WARNING Be sure that the TAMC260 PCI bus Signal Voltage S V IO configuration matches the TAMC260 PMC slots keying pin configuration Be sure that the used PMC modules match to the TAMC260 PCI bus Signal Voltage and PMC slot keying pin configuration If PMC modules are plugged into a PCI environment where the PCI signaling voltage does not match damage to the equipment could occur voiding product warranties 8 3 Voltage Limits on PMC Modules The AMC 0 specification limits the voltages on AMC modules to following thresholds DC voltage AC voltage Positive 27V 27V peak Negative 15V 15V peak Table 8 3 Voltage Limits For PMC modules using voltages including UO voltages that exceed these thresholds an additional insulation to adjacent modules or carrier boards becomes necessary TAMC260 User Manual Issue 1 0 4 Page 18 of 25 TEWS E TECHNOLOGIES 8 4 Component Height Violation on TAMC260 2x With an assembled standard PMC module the Mid Size TAMC260 2x violates the AMC component envelope as defined in AMC 0
10. 0 ccceeccceeeeececeeeeececeeececeaeeeeeeaueeeeaaeneeeeaas 21 TABLE 9 2 PMC J12 P12 AND J22 P22 PIN AGGIOGNMENT emen nnen nmn nn nnne nr nnns nas 22 TABLE 9 3 PMC J14 P14 PIN AGGIOGNMENT nnmenne n nr snnt hr inna sr sr se rins nne r rris aas 23 TABLE 9 4 X1 PIN ASGIOGNMENT nerhh AAAA R AAE sss a sr ss sei a rrr s sanas 25 TAMC260 User Manual Issue 1 0 4 Page 5 of 25 TEWS E TECHNOLOGIES 1 Product Description The TAMC260 is a standard double width Full or Mid Size AMC module that provides one slot for a single width PMC module used to build modular flexible and cost effective I O solutions for all kinds of applications like process control medical systems telecommunication and traffic control 32 bit PCI accesses are supported on PCI bus with PCI frequency 33 MHz and also 66 MHz The PLX8112 PCle to PCI bridge provides the real connection between primary PCle link and the PMC slot The bridge controls all PCI accesses and the frequency for the PMC access The TAMC260 supports front panel I O alternatively a HD68 SCSI V type connector provides access to the PMC P14 back I O lines The TAMC260 is a versatile solution to upgrade well known legacy UO solutions to a high performance form factor According to AMC 0 the TAMC260 provides an IPMI compliant Module Management Controller MMC with temperature monitoring and hot swap support 68 Pin Connector AMC Connector Figure 1 1 Block Di
11. ATION ACCORDING TOMTCAA e 19 FIGURE 9 1 CONNECTOR OVERVIEW Innen nRnrnnnnnhhsn nn rnnr nnr annA ARREA sese sr REEERE s nn sre Ennen nne 20 FIGURE 9 2 FRONT PANEL I O CONNECTORNUMBEDING eene nne nr nnne er neris 24 List of Tables TABLE 2 1 TECHNICAL GPECIEICATION ner rannan sr narn sr snnt rris an sr rr nn anas 7 TABLE 4 1 PCI COMPATIBLE CONFIGURATION REGISTERS TREI 9 TABLE 4 2 PCI COMPATIBLE CAPABILITY REGISTERS sess hne nehhh sensn esee nr sss n rrr sinas 10 TABLE 4 3 PCI BUS DEVICE NUMBER MAPDPDING eere ne nemen eh nnn sr esses ss sn rr nnns nas 11 TABLE 6 1 ON BOARD LINK LED esee aaia ner hh nnne sr reser sisse reris sa sr esse sr ss ser prs s nnns 12 TABLE 6 2 FRONT PANEL LE DS etae een ees a a ESA 12 TABLE 6 3 TEMPERATURE AND VOLTAGE SENSORS here ener neris insi esse sr ss ser rris nan 12 TABLE 7 1 TAMC260 PCI SIGNALING VOLTAGE FACTORY DEFAULTS eene 14 TABLE 7 2 PCI SIGNAL VOLTAGE CONFIGURATION RESISTORS MATRIX eee 15 TABLE 7 3 PCI SIGNAL VOLTAGE CONFIGURATION MATRIX sese nnnen nnn nnne nr nsns 16 TABLE 8 1 AMCMODULEINGERTION tkrar snis rss serrer sina sisi se irs snnt rss nnns 17 TABLE 8 2 AMCMODULEESXTRACTION nn sr sisse insi sane rr rr sss irri sensisse rrr r ssa 17 TABLE 8 3 VOLTAGE LIMITS nnn ennnhnnnnnnit nn nnneteste sisi sace iras sn sssssss iras sane sis s nass sss n nan 18 TABLE 9 1 PMC J11 P11 AND J21 P21 PIN ASSIGNMENT
12. Base Upper 16 Bits 0000 0000 0x34 Reserved PCI Capabilities 000000 40 Pointer 0x38 PCI Base Address for Expansion ROM Not Supported 0x3C Bridge Control Internal PCI Internal PCI 0000 01 00 Interrupt Wire Interrupt Line Table 4 1 PCI Compatible Configuration Registers Type 1 TAMC260 User Manual Issue 1 0 4 Page 9 of 25 4 1 2 PCI Compatible Capability Registers TEWS E TECHNOLOGIES PCI 31 24 23 16 15 8 if 0 Read after CFG initialization Register write access Address 0x40 Power Management Capabilities Power Management Power Management 6A02 5001 Next Capability Capability ID Pointer 0x44 Power Management Power Management Power Management Control Status 00 00 0000 Data Bridge Support 0x48 Device Specific Control 0000 0000 0x4C Reserved 0000 0000 0x50 Message Signaled Interrupts Control Message Signaled Message Signaled 0080 60 05 Interrupts Next Interrupts Capability Capability Pointer ID 0x54 Message Signaled Interrupts Address 0000 0000 0x58 Message Signaled Interrupts Upper Address 0000 0000 0x5C Reserved Message Signaled Interrupts Data 0000 0000 0x60 PCI Express Capabilities PCI Express Next PCI Express 0071 00 10 Capability Pointer Capability ID 0x64 Device Capabilities 0000 0000 0x68 PCI Express Device Status PCI Express Device Control 0000 2000 Ox6C Link Capabilities 0002 4C11 0x70 Link Status Link Contro
13. TEWS The Embedded I O Company TECHNOLOGIES TAMC260 PMC Carrier for AMC User Manual Issue 1 0 4 September 2012 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 TAMC260 10R Full Size PMC Carrier for AMC 5V PMC I O Signaling Voltage TAMC260 11R Full Size PMC Carrier for AMC 3 3V PMC I O Signaling Voltage TAMC260 20R Mid Size PMC Carrier for AMC 5V PMC I O Signaling Voltage TAMC260 21R Mid Size PMC Carrier for AMC 3 3V PMC I O Signaling Voltage TAMC260 User Manual Issue 1 0 4 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 0x029E that means hexadecimal value 029E For signals on hardware products an Active Low is represented by the signal name with following i e IP_RESET Access terms are described as W Write Only R Read Only R W Read Write
14. agram TAMC260 User Manual Issue 1 0 4 Page 6 of 25 TEWS E TECHNOLOGIES 2 Technical Specification AMC Interface Mechanical Interface Advanced Mezzanine Card AMC Interface confirming to PICMG AMC 0 R2 0 1x Double width Full Size Module 2x Double width Mid Size Module Electrical Interface PICMG AMC 1 R1 0 PCle single lane x1 port AMC 1 Type 1 compliant IPMI IPMI Version 1 5 Front Panel LEDs Blue Hot Swap LED Red Failure Indication LED LED1 Green Board OK PMC Activity LED LED 2 On Board Devices PCI Express to PCI Bridge PEX8112 PLX Technology PMC Interface Number of PMC Slots 1 Supported PMC Data Width 32 bit Supported PCI Clock Frequency 33 MHz 66 MHz PCI UO Signaling Voltage 5V amp 3 3V PMC UO Access Front Panel I O P14 Back I O via front panel connector Physical Data Power Requirements 100 mA typical 12V DC Payload Power 30 mA typical 3 3V DC Management Power Additional power is required by PMC modules Maximum Power for PMC Modules 2 A typical 5V DC 2 A typical 3 3V DC 200 mA typical 12V DC 200 mA typical 12V DC Temperature Range Operating 40 C 85 C Storage 40 C 85 C MTBF 570 000 h MTBF values shown are based on calculation according to MIL HDBK 217F and MIL HDBK 217F Notice 2 Environment Gg 20 C The MTBF calcula
15. e DR da REN dd 17 PME Age Le EE 17 8 2 Installation of a PMC Module eeeseseeeeeieesieee eese eeee enne nnnm n nennt nsn ta satin nnn nn nna 17 8 3 Voltage Limits on PMC Modules eeeeeeeeeeesseseseenenen nennen nnnm nnn nn nuni nasa sana nnn anna 18 8 4 Component Height Violation on TAMC260 2x 4 e eeeseeeeeeeeeeeeeen ennt nnne nn nnn nennen 19 9 PIN ASSIGNMENT s ssssessessessssessssessssesstsatsssessesatsssesaesaessaesaesaesesaeeateneseeasens 20 Ce qe ER 20 9 2 PMG JA ADR 21 9 3 PMC J12 P12 and J22 P22 oc ccc cans ctteeiacetececnectdeeenceesetuedsnduersanctacane onde nume cagavencnerendetysineexecudeeere 22 G IE TA E 23 9 5 Front Panel UO Connector X esseeeeeeeeeeeeiieeeeeeneeee nennen snnm a natn nuin tasa snas enn ansa 24 TAMC260 User Manual Issue 1 0 4 Page 4 of 25 TEWS E TECHNOLOGIES List of Figures FIGURE 1 1 BLOCK DIAGRAM nennen aina aR ii esssne ii ss s sesss sa sies ssne irr a sn ssst essa sss sen EAn 6 FIGURE 7 1 PCI SIGNAL VOLTAGE CONFIGURATION RESISTORS BOTTOM VIEW 15 FIGURE 7 2 DMCVOLTAGEKENING Inn nnns nnn hr ss nn iren ssa sr ss se rrr sse eren snas 16 FIGURE 8 1 INSTALLATION OF A PMC MODULE eem nn nnn nren nnn sr ss ser nr ssa sr nnns nnns 18 FIGURE 8 2 COMPONENT HEIGHT VIOLATION ACCORDING TO AMOC O eer 19 FIGURE 8 3 COMPONENT HEIGHT VIOL
16. ignaling voltage the PMC specification defines voltage keying with keying pins on the PMC carrier board and keying holes on the PMC module PMC cards that only support 5 Volt PCI signaling voltage provide a single keying hole for the 5 Volt keying pin A 3 3 Volt only PMC provides only the keying hole for the 3 3 Volt keying pin Universal PMC cards which can handle 3 3 Volt and 5 Volt PCI signaling voltage have keying holes for both voltage keying pins In certain system configurations it may be necessary to remove the keying pin from one location and assemble it at the other keying pin location TAMC260 User Manual Issue 1 0 4 Page 15 of 25 E x iddddddddddddddddddddddddddiiddi gt L zx UTTIOTTTIOTTTTOTTTOTTTTIT o 4 LMA TEWS E TECHNOLOGIES Figure 7 2 PMC Voltage Keying Use the following table to identify the required TAMC260 voltage keying for the actual PMC modules that are to be used P e TAMC260 TAMC260 5V TAMC260 3 3V EC S V IO Keying Pin Keying Pin Capability Configuration Configuration Configuration 3 3V Only 3 3V Not Installed Installed 3 3V Not Installed Installed 3 3V or 5V 5V Installed Not Installed 5V Only 5V Installed Not Installed Table 7 3 PCI Signal Voltage Configuration Matrix TAMC260 User Manual Issue 1 0 4 Page 16 of 25 TEWS E TECHNOLOGIES 8 Installation 8 1 AMC Module Insertion amp
17. it is strongly recommended to use the Full Size TAMC260 1x 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 TAMC260 or its slot to be used in may occur TAMC260 User Manual Issue 1 0 4 Page 19 of 25 TEWS E TECHNOLOGIES 9 Pin Assignment 9 1 Overview C2 eeccc e000 e 00000 Sea D D Weeee Beeee Heeee Ap D D J4 J2 J3 WR D ze of fe of fe e DIL a fe D MOSQ eel ef an See e Safe D ote a fe D DM D Ze e fe RN D D Se Selfie fe LM ee DM Dad DM e fe wiel t t Se ore w l D D Zeg MN eee ef fe Zeg ove ae D n S X4 SS ere eve ere ere ere ere ere es eeeeeeee EE LLLEELTTCCLTTTLEELTTCELTTTEEELT OI LLTLEETLTTCELTTLTELTTTLELTELE Figure 9 1 Connector Overview J1 J2 and J3 are for factory use only TAMC260 User Manual Issue 1 0 4 Page 20 of 25 9 2 PMC J11 P11 Pin Signal Signal Pin 1 TCK 12V 2 3 GND INTA 4 5 INTB INTC 6 7 BUSMODE1 5V 8 9 INTD PCI RSVD 10 11 GND 3 3Vaux 12 13 CLK GND 14 15 GND GNT 16 17 REG 5V 18 19 V I O AD 31 20 21 AD 28 AD 27 22 23 AD 25 GND 24 25 GND C BE 3 26 27 AD 22 AD 21
18. l 0011 0000 0x74 Slot Capabilities 0000 0C80 0x78 Slot Status Slot Control 0400 0000 0x7C Reserved Root Control 0000 0000 0x80 Root Status 0000 0000 0x84 Main Control Register Index 0000 0000 0x88 Main Control Register Data 0000 0000 Table 4 2 PCl Compatible Capability Registers TAMC260 User Manual Issue 1 0 4 Page 10 of 25 TEWS E TECHNOLOGIES 4 2 PCI Bus Device Number Mapping The PCI bus device number of the PMC slot is defined by configuration type translation of the PEX8112 PCI Express to PCI Bridge By default PMC slot 1 is mapped to bus device number 0x04 PCI Bus PCI AD Device PCI Bus AD 31 16 Line used Number Binary as PMC SE HEX IDSEL 0 0000 0000 0000 0001 16 Default IDSEL for PMC1 0000 0000 0000 0010 1 3 17 19 Not used on TAMC260 0000 0000 0000 1000 Optional IDSEL for 4 0000 0000 0001 0000 20 PMC1 0000 0000 0010 0000 5 F os 21 31 Not used on TAMC260 1000 0000 0000 0000 Not implemented by 10 1E 0000 0000 0000 0000 None PCI Express to PCI bridge Special Cycles for 1F Special Cycle Data PMC Table 4 3 PCI Bus Device Number Mapping 4 3 PCI Clock The PCI bus clock on the TAMC260 is configured by the plugged PMC modules The TAMC260 supports 66MHz PCI bus clock If the plugged PMC module does only support 33 MHz operation the PCI bus will always operate with 33 MHz only Configuration Hints 5 1 PEX8112Configuration EEPROM
19. lity Heglsterg nnns 10 4 2 PCI Bus Device Number Mapping eeeeeeeeeeeeeeese seen nn nne enneunen ennn natn annt nnna 11 4 3 eer 11 5 CONFIGURATION HINTS useegre rgegeergeueeareegregreeguedreegee gedeien 11 5 1 PEX8112Configuration EEPROM eebe enim rnnt rn iternm cen ge NEeeN 11 6 MODULE MANAGEMENT EN 12 OMhbPiciclc 12 514 1 OnBoard EInlcEED eiii e ree eu occid o ER DR e RE SCA V RS AREE OA 12 62 Fromt Panel LEDS 12 6 2 Temperature and Voltage Sensors aues seeeeeee eese enne nenne nn tn nnn nn sata annt nnn 12 6 3 FRU Data Multi Records eeeeeeiieesieeeeieeeeeeeen seen nnne nhan nna n anta snnm nsn tn nasa nasa snm ane tn nnna 13 6 3 4 Connectivity eo ER 13 6 3 2 Module Current Requirement Hecord eene 13 6 3 3 Clock Configuration Record 13 7 PMG TO PCIINTEBHPADE EE 14 7 1 PCISigna li ng Ke EE 14 7 1 1 PCI Bus Signal Voltage Level 15 7 1 2 PCI Signaling Levels and Voltage kevimng nnn 15 8 INSTALLATION MM 17 8 1 AMC Module Insertion amp Hot Swap e eeeeeeeeeieeeseee eese eene enne nnn nennt nnn na sata nennt nnn nn 17 98 1 1 InSertlOFi iet rena neri cac na vanne deae Dd dae DER a dana Rd Ange DRE daa DV R Ra dad
20. o Een T l BV only T ntversal 33v on Configuration PMC PMC PMC x0 5V Installed Not Installed Y Y x x1 3 3V Not Installed Installed x Y d Table 7 1 TAMC260 PCI Signaling Voltage Factory Defaults WARNING Be sure that the TAMC260 PCI bus Signal Voltage S V IO configuration matches the TAMC260 PMC slots keying pin configuration Be sure that the used PMC modules match to the TAMC260 PCI bus Signal Voltage and PMC slot keying pin configuration If PMC modules are plugged into a PCI environment where the PCI signaling voltage does not match damage to the equipment could occur voiding product warranties TAMC260 User Manual Issue 1 0 4 Page 14 of 25 7 1 1 PCI Bus Signal Voltage Level The S V IO signal voltage level is configured on board with three resistors To change the S V IO voltage level these resistors must be soldered to the appropriate soldering terminals These reside on the bottom side of the TAMC260 and are grouped with a copper frame Figure 7 1 PCI Signal Voltage Configuration Resistors Bottom View TAMC260 S V IO Populated Unpopulated Configuration Resistors Resistors 5V R88 R89 R90 R85 R86 R87 3 3V R85 R86 R87 R88 R89 R90 Table 7 2 PCI Signal Voltage Configuration Resistors Matrix 7 1 2 PCI Signaling Levels and Voltage Keying TEWS E TECHNOLOGIES To prevent a PMC from being plugged into a PMC system with a different PCI s
21. s the PMC WO lines directly to the appropriate pins of the SCSI V VHDCI Champ receptacle type cable connector The actual signal assignment of the PMC J14 P14 connector is PMC specific TAMC260 User Manual Issue 1 0 4 Page 24 of 25 Pin Signal Signal Pin 1 I O 1 O 2 2 3 1 0 3 UO 4 4 5 1 0 5 0 6 6 7 07 0 8 8 9 1 0 9 I O 10 10 11 I O 11 0 12 12 13 1 0 13 IO 14 14 15 015 1 0 16 16 17 10 17 IO 18 18 19 I O 19 1 0 20 20 21 IO 21 IO 22 22 23 IO 23 1 O 24 24 25 0 25 1 O 26 26 27 IO 27 O 28 28 29 1 0 29 1 0 30 30 31 UO 31 1 0 32 32 33 1 0 33 1 0 34 34 35 UO 35 1 0 36 36 37 1 0 37 1 0 38 38 39 1 0 39 1 0 40 40 41 IO 41 IO 42 42 43 1 0 43 1 O 44 44 45 IO 45 1 O 46 46 47 IO 47 1 0 48 48 49 1 0 49 1 0 50 50 51 UO 51 IO 52 52 53 1 0 53 1 0 54 54 55 IO 55 O 56 56 57 1 0 57 1 0 58 58 59 1 0 59 1 0 60 60 61 1 0 61 1 0 62 62 63 1 0 63 1 0 64 64 65 GND GND 66 67 GND GND 68 TAMC260 User Manual Issue 1 0 4 Table 9 4 X1 Pin Assignment TEWS E TECHNOLOGIES Page 25 of 25
22. tion 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 non condensing Weight 165 g TAMC260 User Manual Issue 1 0 4 Table 2 1 Technical Specification Page 7 of 25 3 TEWS TECHNOLOGIES Handling and Operation Instructions 3 1 ESD Protection The TAMC260 is sensitive to static electricity Packing unpacking and all other handling of the TAMC260 has to be done in an ESD EOS protected Area 3 2 PCI Bus Signaling Voltage Be sure that the TAMC260 PCI bus Signal Voltage configuration matches the TAMC260 PMC slots keying pin configuration If PMC modules are plugged into a PCI environment where the PCI signaling voltage does not match damage to the equipment could occur voiding product warranties Refer to the chapter PCI Signaling Voltage for details 3 3 Voltage Limits on PMCs The AMC 0 specification limits the voltages on AMC modules These limits also apply to mounted PMCs Refer to the chapter Voltage Limits on PMC Modules for details 3 4 TAMC260 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 his system
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