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Hardware Preparation and Installation

ATCA-F125 (6873M Artwork) Installation and Use (6806800J94N)

43

2.7

AMC Module Installation and Removal

The blade comes with an AMC Bay. For more information, see

AMC Bay on page 86

.

Installation Procedure

This procedure assumes that the AdvancedATCA system is powered. If your system is

powered down, you can disregard the instructions regarding the blue LED.

1.

If the AMC bay is occupied by an AMC filler panel, remove the filler panel.

2.

Make sure that the AMC module handle is in the extracted position: pulled outward,
away from the face plate.

3.

Using your thumb, apply equal and steady pressure on the face plate as necessary to
carefully slide the AMC module into the guide rails.

4.

Continue pushing the module gently along the guide rails until the module is fully
engaged with the connector. Avoid using excessive force.

NOTICE

Damage of Circuits

Electrostatic discharge and incorrect installation and removal of the blade can
damage circuits or shorten its life.

Before touching the blade or electronic components, make sure that you are
working in an ESD-safe environment.

AMC Module Damage

The AMC bay supports only AMC modules that are officially supported by SMART

Embedded Computing. Installing and operating other AMC modules may damage
the AMC bay and the blade.

Limitation of Operating Temperature Range

Installing AMC modules with small operating temperature ranges into the ATCA-
F125 may further restrict the operating temperature range of the ATCA-F125.

Make sure that the operating temperature of any installed AMC modules and the
ATCA-F125 as a bundle are within allowed limits.

Poor Shelf Cooling and EMC Compliance Violation

An empty AMC bay may result in poor shelf cooling and strong EMC radiation and
lead to EMC compliance violation.

Always cover empty or unused AMC bays with a filler panel.

Summary of Contents for 6873M Artwork

Page 1: ...ATCA F125 6873M Artwork Installation and Use P N 6806800J94N December 2019 ...

Page 2: ...r to the products described therein at any time without notice SMART EC makes no commitment to update the information contained within these materials Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to a SMART EC website The text itself may not be published commercially in print or electronic form edited translated or o...

Page 3: ...2 Unpacking and Inspecting the Blade 33 2 3 Requirements 34 2 3 1 Environmental Requirements 34 2 3 2 Thermal Requirements 36 2 3 3 Power Requirements 36 2 4 Rear Transition Modules 37 2 5 Blade Configuration 38 2 5 1 SATA Drive Installation 38 2 6 Blade Installation and Removal 39 2 6 1 Installing Blade 39 2 6 2 Removing Blade 41 2 7 AMC Module Installation and Removal 43 2 8 Installing and Remov...

Page 4: ...es 68 4 Functional Description 69 4 1 Block Diagram 69 4 2 Processor 70 4 3 Memory 70 4 3 1 Memory Interface 71 4 3 2 Memory Sockets 71 4 3 3 Memory Modules 71 4 3 4 Persistent Memory 71 4 4 IPMI 72 4 4 1 Temperature Sensors 74 4 5 FPGA 74 4 5 1 Serial Configuration PROM 75 4 6 Boot and User Flashes 76 4 6 1 Boot Flash Backup Recovery 77 4 7 Base Channel Interface 78 4 7 1 Base Channel PHYs 81 4 7...

Page 5: ...6 4 12 5 Rear Transition Module 96 4 13 Interrupt Structure 96 5 U Boot 101 5 1 Overview 101 5 2 Accessing U Boot 101 5 3 Configuring Boot Options 102 5 3 1 Configuring U Boot for Network Boot 102 5 3 2 Configuring U Boot to Boot from RAM Disk 103 5 3 3 Configuring U Boot to Boot from Flash 103 5 4 Selecting the Boot Flashes 104 5 5 Using the Persistent Memory Feature 104 5 6 Memory Map 105 5 7 Li...

Page 6: ...6 ATCA F125 6873M Artwork Installation and Use 6806800J94N Table of Contents B Related Documentation 115 B 1 SMART Embedded Computing Documentation 115 B 2 Related Specifications 115 ...

Page 7: ...e 4 4 Boot PROM Backup Recovery 77 Figure 4 5 Base Channel Block Diagram 78 Figure 4 6 Standard ShMC Cross Connect 81 Figure 4 7 Fabric Channel Block Diagram 82 Figure 4 8 SFP Module Status and Control Interface 85 Figure 4 9 AMC Bay Connection Diagram 87 Figure 4 10 Base Channel Cross Connect 89 Figure 4 11 Fabric Channel Cross Connect 89 Figure 4 12 Telecom Clocking Subsystem 91 Figure 4 13 BITS...

Page 8: ...List of Figures 8 ATCA F125 6873M Artwork Installation and Use 6806800J94N ...

Page 9: ...Connector P21 Pin Assignment 57 Table 3 12 Connector P22 Pin Assignment 58 Table 3 13 Connector P23 Pin Assignment 59 Table 3 14 Connector P24 Pin Assignment 59 Table 3 15 Connector P32 Pin Assignment 60 Table 3 16 Connector P30 Pin Assignment 61 Table 3 17 Connector P31 Pin Assignment 62 Table 3 18 J8 AMC Bay Connector Pin Assignment 64 Table 3 19 J11 SAS SATA Connector Pin Assignment 66 Table 3 ...

Page 10: ...SS IPMI Sensor Reading Data 107 Table 5 5 SYS FW PROGRESS IPMI Sensor POST Error Event Codes 108 Table 5 6 POST Routines 108 Table 5 7 Environment Variable post_control 109 Table 5 8 ATCA F125 Specific U Boot Commands 110 Table 5 9 ATCA F125 Specific U Boot Environment Variables 110 Table B 1 SMART EC Documentation 115 Table B 2 Specifications 115 ...

Page 11: ...is include connectors LEDs and mechanical switches Chapter 4 Functional Description on page 69 includes a block diagram and functional description of major components of the product Chapter 5 U Boot on page 101describes the boot firmware Appendix A Battery Exchange on page 113 contains the procedures for replacing the battery Appendix B Related Documentation on page 115 provides a listing of relat...

Page 12: ...ourier Bold Used to characterize user input and to separate it from system output Reference Used for references and for table and figure descriptions File Exit Notation for selecting a submenu text Notation for variables and keys text Notation for software buttons to click on the screen and parameter description Repeated item for example node 1 node 2 node 12 Omission of information from example c...

Page 13: ... environment care should be taken to use proper ESD practices No danger encountered pay attention to important information Notation Description Part Number Publication Date Description 6806800J94N December 2019 Rebrand to SMART Embedded Computing template Updated Freescale to NXP updated Ordering Information and Documentation Updated Compliance table for RoHS 6806800J94M May 2016 Removed Declarati...

Page 14: ...J94E October 2013 Updated Table 2 2 on page 37 6806800J94D December 2012 Updated Standard Compliances on page 16 6806800J94C August 2012 Updated Ordering Information on page 18 Figure Serial Number Locator on page 20 Figure Module Connectors Location on page 54 and Functional Description on page 61 6806800J94B March 2012 Updated Chapter 4 Functional Description on page 61 Chapter P EMC on page 118...

Page 15: ...nly personnel trained by SMART Embedded Computing or persons qualified in electronics or electrical engineering are authorized to install remove or maintain the product The information given in this manual is meant to complete the knowledge of a specialist and must not be used as replacement for qualified personnel Keep away from live circuits inside the equipment Operating personnel must not remo...

Page 16: ...or applications where this product is provided without a face plate or where the face plate has been removed your system chassis enclosure must provide the required electromagnetic interference EMI shielding to maintain EMC compliance Board products are tested in a representative system to show compliance with the above mentioned requirements A proper installation in a compliant system maintains t...

Page 17: ...ntil the blue LED is permanently illuminated before removing the blade System Damage WARNING The intra building port s of the equipment or subassembly is suitable for connection to intra building or unexposed wiring or cabling only The intra building port s of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the OSP or its wiring These interfaces are de...

Page 18: ...erved might carry production related functions and can cause the product to malfunction if their setting is changed Do not change settings of switches marked as reserved Product Damage Setting resetting the switches during operation can cause damage to the product Check and change switch settings before you install the product Product Damage Too much force may damage the reset switch Use minimal f...

Page 19: ...oving the product SFP SFP Modules Personal Injury and Damage of the RTM and SFP SFP Modules Installing and using SFP SFP modules which are not fully certified and which do not meet all relevant safety standards may damage the RTM and the SFP SFP modules and may lead to personal injury Only use and install SFP SFP modules which are fully certified and which meet all relevant safety standards Person...

Page 20: ...nother battery type than the one that is mounted at product delivery may cause data loss since other battery types may be specified for other environments or may have a shorter lifetime Only use the same type of lithium battery as is already installed PCB and Battery Holder Damage Removing the battery with a screw driver may damage the PCB or the battery holder Do not use a screw driver to remove ...

Page 21: ... und in der Entwicklung verwendet werden Es darf nicht in sicherheitskritischen Anwendungen lebenserhaltenden Geräten oder in Flugzeugen verwendet werden Einbau Wartung und Betrieb dürfen nur von durch SMART Embedded Computing ausgebildetem oder im Bereich Elektronik oder Elektrotechnik qualifiziertem Personal durchgeführt werden Die in diesem Handbuch enthaltenen Informationen dienen ausschließli...

Page 22: ...Maßnahmen durchzuführen und dafür aufzukommen Benutzen Sie zum Anschließen von Peripheriegeräten ausschließlich abgeschirmte Kabel So stellen Sie sicher dass ausreichend Schutz vor Störstrahlung vorhanden ist Die Blades müssen mit der Frontblende installiert und alle freien Steckplätze müssen mit Blindblenden abgedeckt sein Änderungen die nicht ausdrücklich von SMART Embedded Computing erlaubt sin...

Page 23: ...n führt zu Beschädigung des Produktes oder der Zusatzmodule Lesen Sie deshalb vor dem Ein oder Ausbau von Zusatzmodulen die Dokumentation und benutzen Sie angemessenes Werkzeug Beschädigung des Blades Fehlerhafte Installation des Blades kann zu einer Beschädigung des Blades führen Verwenden Sie die Handles um das Blade zu installieren deinstallieren Auf diese Weise vermeiden Sie dass das Front Pan...

Page 24: ...Sie das Blade nur innerhalb der angegebenen Grenzwerte für die relative Luftfeuchtigkeit und Temperatur Stellen Sie vor dem Einschalten des Stroms sicher dass sich auf dem Blade kein Kondensat befindet und betreiben Sie das Blade nicht unter 5 C Überhitzung und Beschädigung des Blades Betreiben Sie das Blade ohne Zwangsbelüftung kann das Blade überhitzt und schließlich beschädigt werden Bevor Sie ...

Page 25: ...eines Kabels welches an den RJ 45 Stecker angeschlossen ist 100 Meter nicht überschreitet Stellen Sie sicher dass der TPE Stecker ausschliesslich mit einem Safety Extra Low Voltage Stromkreis SELV verbunden ist Wenden Sie sich bei Fragen an ihren Systemadministrator AMC Module Eingeschränkte Betriebstemperaturbereich Werden AMC Module auf dem Blade installiert deren Betriebstemperaturbereiche klei...

Page 26: ...SFP SFP Module können als Laserprodukte klassifiziert sein Wenn Sie solche SFP SFP Module installieren und betreiben so gelten die entsprechenden Bestimmungen für Laserprodukte für das gesamte RTM Werden diese Bestimmungen nicht eingehalten so können Verletzungen die Folge sein Wenn Sie SFP SFP Module betreiben die als Laserprodukte klassifiziert sind stellen Sie sicher dass die entsprechenden Bes...

Page 27: ...könnte Verwenden Sie daher den gleichen Batterietyp der bei Auslieferung des Produktes installiert war Beschädigung des PCBs und der Batteriehalterung Wenn Sie die Batterie mit einem Schraubendreher ausbauen können das PCB und die Batteriehalterung beschädigt werden Benutzen Sie keinesfalls einen Schraubendreher um die Batterie aus der Halterung zu nehmen Umweltschutz Umweltverschmutzung Falsche E...

Page 28: ...28 ATCA F125 6873M Artwork Installation and Use 6806800J94N Sicherheitshinweise Sicherheitshinweise ...

Page 29: ...mm NXP P2020 QorIQ Integrated Processor for the on board service processor functions Two DDR3 memory DIMM slots each of which can support up to 2GB of DDR3 SDRAM with ECC 2GB default configuration 2GB embedded USB Flash module for User Flash memory On board SATA connector for an optional drive with selectable interface to either the service processor or the processor AMC Real time clock RJ 45 UART...

Page 30: ...R 63 CORE ANSI Fire Spread Criteria AT T Document ATT TP 76200 Network Equipment Power Grounding Environmental and Physical Design Requirements ETSI Acoustic Noise ETS 300 753 Class 3 1 ETSI acoustic noise requirements ETSI Stationary Use EN 300 019 2 3 Class 3 1 ETSI stationary use requirements temperature controlled locations ETSI Storage EN 300 019 2 1 Class 1 2 ETSI storage requirements in sys...

Page 31: ... smartembedded com ec support EN55022 Class A EU EN 55024 EU FCC 47 CFR Part 15 Subpart B US Class A AS NZS CISPR 22 Class A Australia New Zealand VCCI Class A Japan EMC requirements legal on system level predefined SMART Embedded Computing system Verizon Document VZ NEBS TE NPI 2004 015 NEBS Checklist Telecommunications Carrier Group NEBS Checklist Directive EU 2015 863 amending Annex II to Direc...

Page 32: ...t manufactured with 6873M PWB artwork For 6859G PWB artwork documentation refer to ATCA F125 Installation Use manual 6806800J94B The PWB artwork may be identified by the assembly number which is marked near the serial number as shown in Figure 1 1 1 5 Product Identification The following graphic shows the location of the serial number label Figure 1 1 Serial Number Locater ...

Page 33: ...e 2 2 Unpacking and Inspecting the Blade Shipment Inspection 1 Verify that you have received all items of your shipment Safety Notes Summary ATCA F125 blade Any optional items ordered NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal of the blade can damage circuits or shorten its life Before touching the product make sure that you are working in an ESD safe ...

Page 34: ...ion or any items are missing please contact customer service immediately NOTICE Environmental Damage Improper disposal of used products may harm the environment Always dispose of used products according to your country s legislation and manufacturer s instructions Operating temperatures refer to the temperature of the air circulating around the blade and not to component temperatures If you integr...

Page 35: ...essories Temp Change 0 25 C min according to Telcordia GR 63 CORE 0 2 C min Relative Humidity Normal Operation 5 rH to 85 rh non condensing Exceptional Operation 5 rH to 90 rh non condensing According to Telcordia GR 63 CORE NEBS and EN 300 019 1 3 Classes 3 1 and 3 1E 5 rH to 95 rH non condensing According to Telcordia GR 63 CORE NEBS and EN 300 019 1 1 Classes 1 2 and 2 3 Vibration 1g from 5 to ...

Page 36: ...able show typical examples of the power requirements with and without accessories installed For information on the accessories power requirements refer to the documentation delivered together with the respective accessory or consult your local SMART EC representative for further details NOTICE System Overheating Cooling Vents Improper cooling can lead to system damage and can void the manufacturer...

Page 37: ...0VDC US and 48VDC Canada Operating Voltage Exception in the US and Canada 39VDC to 72VDC US and 39VDC to 60VDC Canada Max power consumption of ATCA F125 with SATA drive and RTM ATCA F125 125W 98W typical Max power consumption of ATCA F125 with SATA drive without RTM ATCA F125 105W 80W typical The RTMs are not hot swappable Before installation make sure that no front blade is installed in its respe...

Page 38: ...nments has been test and approved for use on the ATCA F125 Contact your SMART EC sales representative and order the HDD 80G SATA kit which includes the hard drive all the required mounting hardware and the installation instructions NOTICE Product Malfunction Switches marked as reserved may carry production related functions and can cause the product to malfunction if the setting is changed Do not ...

Page 39: ...ctive step In this case it is a purely mechanical installation 1 Visually inspect the blade and backplane connectors for damage or bent pins before attempting to insert a board If any connector damage or pin damage in observed stop before inserting the blade and send the damaged item through proper repair channels NOTICE Damage of Circuits Electrostatic discharge and incorrect blade installation a...

Page 40: ...the card guides of the shelf Make sure that the guiding module of shelf and blade are aligned properly 4 Apply equal and steady pressure to the blade to carefully slide the blade into the shelf until you feel resistance Continue to gently push the blade until the blade connectors engage 5 Squeeze the lever and the latch together and hook the lower and the upper handle into the shelf rail recesses ...

Page 41: ...moving Blade This section describes how to remove the blade from an AdvancedTCA system If you feel that you need an abnormal amount of force during blade insertion to insert the blade into the slot please extract the blade then carefully inspect the blade and slot for problems to prevent damage If an RTM is connected to the front blade make sure that the handles of both the RTM and the front blade...

Page 42: ...ther and turning the handle outward Do not rotate the handle fully outward The blue LED blinks indicating that the blade power down process is ongoing 2 Wait until the blue LED is illuminated permanently Unfasten the screw of the faceplate then unlatch the upper handle and rotate both handles fully outward until the blade is detached from the shelf 3 Remove the face plate cables if applicable 4 Re...

Page 43: ...nector Avoid using excessive force NOTICE Damage of Circuits Electrostatic discharge and incorrect installation and removal of the blade can damage circuits or shorten its life Before touching the blade or electronic components make sure that you are working in an ESD safe environment AMC Module Damage The AMC bay supports only AMC modules that are officially supported by SMART Embedded Computing ...

Page 44: ...ps blinking and stays OFF Removal Procedure This procedure assumes that the AdvancedATCA system is powered If your system is powered down you can disregard the instructions regarding the blue LED 1 Remove any cables that are connected to the AMC module face plate connectors 2 Gently pull the module latch outwards approximately 3 mm away from its locked position 3 Wait for the blue LED to perform s...

Page 45: ... to personal injury Only use and install SFP modules which are fully certified and which meet all relevant safety standards Personal Injury Optical SFP modules may be classified as laser products When installing and using any of these SFP modules the regulations which correspond to the respective laser class apply to the whole RTM Not complying to these regulations may lead to personal injury When...

Page 46: ...rdware Preparation and Installation Hardware Preparation and Installation 2 8 1 Installing an SFP Module Procedure In order to install an SFP module proceed as follows 1 Slide the SFP module into the slot until it locks into position 2 Remove the optical port plug ...

Page 47: ... the SFP module NOTICE SFP Module Damage The optical port plug protects the sensitive optical fibres against dirt and damage Dirt and damage can render the SFP module inoperable Only remove the optical plug when you are ready to connect a cable to the SFP module When no cable is connected cover the port with an optical port plug ...

Page 48: ...aration and Installation 2 8 2 Removing an SFP Module Procedure In order to remove an SFP module proceed as follows 1 Remove any connected cable from the SFP module 2 Open the SFP latch Note that the latch mechanism of your SFP module may be slightly different compared to the latch shown in the following figure ...

Page 49: ...Cover the optical port with the optical port plug NOTICE SFP Module Damage The optical port plug protects the sensitive optical fibers against dirt and damage Dirt and damage can render the SFP module inoperable Only remove the optical plug when you are ready to connect a cable to the SFP module When no cable is connected cover the port with an optical port plug ...

Page 50: ...50 ATCA F125 6873M Artwork Installation and Use 6806800J94N Hardware Preparation and Installation Hardware Preparation and Installation ...

Page 51: ...ure 3 1 ATCA F125 Face Plate Table 3 1 Face Plate LEDs Label LED Color Function OOS Out of Service Red This LED is enabled by the IPMC upon initially entering the M4 state Once the HPM Agent starts up this LED is disabled IS In Service Green This LED is enabled by HPM Agent upon initialization This indicates that the payload software is up and running ATN Attention Yellow Blade attention required ...

Page 52: ...cted ETH5 Activity Green Blinking Service Processor Ethernet port activity ETH5 Link Yellow 10 100 1000 Ethernet link on service processor Ethernet port T1 E1 1 Telco Clock LED 2 Yellow Loss of Signal Green Status OK Red Blinking Initializing T1 E1 2 Telco Clock LED 4 Yellow Loss of Signal Green Status OK Red Blinking Initializing MODE Telco Clock LED 1 Yellow Slave Clock Generator Green On Master...

Page 53: ...l of the Ethernet switches It will not reset the IPMC or the AMC 3 5 Face Plate Connectors The following tables provide the pinout for the face plate connectors Table 3 2 Service Processor Ethernet RJ 45 Connector Pin Assignment J9 RJ 45 Pin 10Base T or 100Base TX 1000Base T 1 ETH_TX ETH_DA 2 ETH_TX ETH_DA 3 ETH_RX ETH_DB 4 ETH_DC 5 ETH_DC 6 ETH_RX ETH_DB 7 ETH_DD 8 ETH_DD Table 3 3 Service Proces...

Page 54: ...le 3 5 SFP Connectors Pin Assignment J4 J7 Contact Number Function Contact Number Function 1 GND 11 GND 2 TX_FAULT 12 RX 3 TX_DISABLE 13 RX 4 I2C_SDA 14 GND 5 12C_SCL 15 VCCr 3 3 V 6 MOD_ABS 16 VCCr 3 3 V 7 RATE_SEL1 17 GND 8 LOS 18 TX 9 GND 19 TX 10 GND 20 GND 1 Configured with a pull up to allow high speed connection Table 3 6 Master Slave Sync Connector J12 U1 RJ 45 Pin Function 1 Transmit 2 Tr...

Page 55: ...Sync Connector J12 U1 continued RJ 45 Pin Function Table 3 7 Inter Shelf Connectors J12 L1 L2 L3 U2 U3 RJ 45 Pin Function 1 Port 1 2 Port 1 3 Port 2 4 Port 3 5 Port 3 6 Port 2 7 Port 4 8 Port 4 Table 3 8 T1 E1 Port Connectors J12 L4 and J12 U4 RJ 45 Pin Function 1 RX Ring 2 RX Tip 3 4 TX Ring 5 TX Tip 6 Port 2 7 Shield 8 Shield ...

Page 56: ...IPMC Port 2 bit 3 Hardware Address Bit 3 9 IPMC Port 2 bit 4 Hardware Address Bit 4 10 IPMC Port 2 bit 5 Hardware Address Bit 5 11 IPMC Port 2 bit 6 Hardware Address Bit 6 12 IPMC Port 2 bit 7 Hardware Address Bit 7 13 IPMC Port C bit 0 IPMB Clock Port A 14 IPMC Port C bit 1 IPMB Data Port A 15 IPMC Port C bit 2 IPMB Clock Port B 16 IPMC Port C bit 3 IPMB Data Port A 17 24 Not used Not used 25 She...

Page 57: ...TX2 FIX_P14_RX2 FIX_P14_RX2 FIX_P14_TX3 FIX_P14_TX3 FIX_P14_RX3 FIX_P14_RX3 8 FIX_P14_TX0 FIX_P14_TX0 FIX_P14_RX0 FIX_P14_RX0 FIX_P14_TX1 FIX_P14_TX1 FIX_P14_RX1 FIX_P14_RX1 9 FIX_P13_TX2 FIX_P13_TX2 FIX_P13_RX2 FIX_P13_RX2 FIX_P13_TX3 FIX_P13_TX3 FIX_P13_RX3 FIX_P13_RX3 10 FIX_P13_TX0 FIX_P13_TX0 FIX_P13_RX0 FIX_P13_RX0 FIX_P13_TX1 FIX_P13_TX1 FIX_P13_RX1 FIX_P13_RX1 Table 3 11 Connector P21 Pin ...

Page 58: ...IX_P7_RX3 2 FIX_P7_TX0 FIX_P7_TX0 FIX_P7_RX0 FIX_P7_RX0 FIX_P7_TX1 FIX_P7_TX1 FIX_P7_RX1 FIX_P7_RX1 3 FIX_P6_TX2 FIX_P6_TX2 FIX_P6_RX2 FIX_P6_RX2 FIX_P6_TX3 FIX_P6_TX3 FIX_P6_RX3 FIX_P6_RX3 4 FIX_P6_TX0 FIX_P6_TX0 FIX_P6_RX0 FIX_P6_RX0 FIX_P6_TX1 FIX_P6_TX1 FIX_P6_RX1 FIX_P6_RX1 5 FIX_P5_TX2 FIX_P5_TX2 FIX_P5_RX2 FIX_P5_RX2 FIX_P5_TX3 FIX_P5_TX3 FIX_P5_RX3 FIX_P5_RX3 6 FIX_P5_TX0 FIX_P5_TX0 FIX_P5...

Page 59: ...P3_DC BIX_P3_DD BIX_P3_DD 8 BIX_P4_DA BIX_P4_DA BIX_P4_DB BIX_P4_DB BIX_P4_DC BIX_P4_DC BIX_P4_DD BIX_P4_DD 9 BIX_P5_DA BIX_P5_DA BIX_P5_DB BIX_P5_DB BIX_P5_DC BIX_P5_DC BIX_P5_DD BIX_P5_DD 10 BIX_P6_DA BIX_P6_DA BIX_P6_DB BIX_P6_DB BIX_P6_DC BIX_P6_DC BIX_P6_DD BIX_P6_DD Table 3 14 Connector P24 Pin Assignment P24 Row Column AB Column CD Column EF Column GH 1 BIX_P7_DA BIX_P7_DA BIX_P7_DB BIX_P7_...

Page 60: ...2 FIX_P22_TX2 FIX_P22_TX2 FIX_P22_TX2 FIX_P22_TX2 FIX_P22_TX2 FIX_P22_TX2 FIX_P22_TX2 4 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 FIX_P22_TX0 5 RFX_P14_TX2 RFX_P14_TX2 RFX_P14_RX2 RFX_P14_RX2 RFX_P14_TX3 RFX_P14_TX3 RFX_P14_RX3 RFX_P14_RX3 6 RFX_P14_TX0 RFX_P14_TX0 RFX_P14_RX0 RFX_P14_RX0 RFX_P14_TX1 RFX_P14_TX1 RFX_P14_RX1 RFX_P14_RX1 7 RFX_P15_TX2 RFX_P1...

Page 61: ...BX_P20 RFX_ GE1_RX RBX_P20 RFX_ GE1_RX 3 FIX_P17_TX2 FIX_P17_TX2 FIX_P17_RX2 FIX_P17_RX2 FIX_P17_TX3 FIX_P17_TX3 FIX_P17_RX3 FIX_P17_RX3 4 FIX_P17_TX0 FIX_P17_TX0 FIX_P17_RX0 FIX_P17_RX0 FIX_P17_TX1 FIX_P17_TX1 FIX_P17_RX1 FIX_P17_RX1 5 FIX_P18_TX2 FIX_P18_TX2 FIX_P18_RX2 FIX_P18_RX2 FIX_P18_TX3 FIX_P18_TX3 FIX_P18_TX3 FIX_P18_TX3 6 FIX_P18_TX0 FIX_P18_TX0 FIX_P18_RX0 FIX_P18_RX0 FIX_P18_TX1 FIX_P...

Page 62: ...TX3 BIX_XG1_TX3 BIX_XG1_RX3 BIX_XG1_RX3 4 BIX_XG1_TX0 BIX_XG1_TX0 BIX_XG1_RX0 BIX_XG1_RX0 BIX_XG1_TX1 BIX_XG1_TX1 BIX_XG1_RX1 BIX_XG1_RX1 5 AMC_TX4 AMC_TX4 AMC_RX4 AMC_RX4 RBX_P21_TX RBX_P21_TX RBX_P21_RX RBX_P21_RX 6 AMC_TX5 AMC_TX5 AMC_RX5 AMC_RX5 RBX_P22_TX RBX_P22_TX RBX_P22_RX RBX_P22_RX 7 AMC_TX6 AMC_TX6 AMC_RX6 AMC_RX6 RBX_P23_TX RBX_P23_TX RBX_P23_RX RBX_P23_RX 8 AMC_TX7 AMC_TX7 AMC_RX7 AM...

Page 63: ...Controls LEDs and Connectors ATCA F125 6873M Artwork Installation and Use 6806800J94N 63 3 7 Module Connectors Figure 3 2 Module Connectors Location ...

Page 64: ...2V 106 AMC_ P11_MUX_TX 140 GND 5 GA0 39 Unused 73 GND 107 GND 141 Unused 6 Reserved 40 GND 74 TCLKA 108 AMC_ P11_MUX_RX 142 Unused 7 GND 41 ENABLE 75 TCLKA 109 AMC_ P11_MUX_RX 143 GND 8 Reserved 42 12V 76 GND 110 GND 144 Unused 9 12V 43 GND 77 TCLKB 111 Unused 145 Unused 10 GND 44 AMC_TX4 78 TCLKB 112 Unused 146 GND 11 BIX_P18_RX 45 AMC_TX4 79 GND 113 GND 147 Unused 12 BIX_P18_RX 46 GND 80 PCIe_CL...

Page 65: ...used 160 Unused 25 GND 59 AMC_TX6 93 AMC_ P9_MUX_TX 127 Unused 161 GND 26 GA2 60 AMC_TX6 94 AMC_ P9_MUX_TX 128 GND 162 Unused 27 12V 61 GND 95 GND 129 Unused 163 Unused 28 GND 62 AMC_RX6 96 AMC_ P9_MUX_RX 130 Unused 164 GND 29 SATA_AMC_RX 63 AMC_RX6 97 AMC_ P9_MUX_RX 131 GND 165 TCK 30 SATA_AMC_RX 64 GND 98 GND 132 Unused 166 TMS 31 GND 65 AMC_TX7 99 AMC_ P10_MUX_TX 133 Unused 167 TRST 32 SATA_AMC...

Page 66: ...lowing table shows the pinout assignment for the eUSB header Table 3 19 J11 SAS SATA Connector Pin Assignment Contact Number Description Contact Number Description P1 NC S1 GND GE21 NC S2 DRIVE_RX input P3 NC S3 DRIVE_RX input P4 GND S4 GND P5 GND S5 DRIVE_TX output P6 GND S6 DRIVE_TX output P7 5V S7 GND P8 5V S8 NC P9 5V S9 NC P10 GND S10 NC P11 NC S11 NC P12 GND S12 NC P13 NC S13 NC P14 NC S14 N...

Page 67: ...in 8 The following table shows the pinout assignment for this header 7 GND 8 No Connect 9 No Pin Key 10 No Connect Table 3 20 P8 eUSB Header Pin Assignment continued Contact Number Description Contact Number Description Table 3 21 P50 COP Header Pin Assignment Contact Number Description Contact Number Description 1 COP_TDO 2 3 3V pull up 3 COP_TDI 4 COP_TRST_L 5 3 3V pull up 6 COP_VDD_SENSE 7 COP_...

Page 68: ... operating modes Table 3 23 Switch Settings Switch Options Default SW1 1 Manual power enable of 12V OFF 12V power is controlled by IPMI ON Enable 12V OFF SW1 2 Manual power enable of POL OFF POL power is controlled by IPMI ON Enable POL supplies by initiating power up sequence OFF SW1 3 Manual power enable of AMC and RTM OFF AMC and RTM power is controlled by IPMI ON Enable AMC and RTM power OFF S...

Page 69: ...6 3 8 0 3RUW 0 3RUW 8 7R RQH RQQHFWRU 8 8 7R RQH RQQHFWRU 00 5 Z 6 7 ULGJH 3 H 6 0 6 DFNSODQH RQH RQQHFWRUV 7 RJLFDO 6ORW 7UDQVIRUPHUV 3 V 6 0 6 0 6 0 0 3RUW 7R RQH RQQHFWRU 7R RQH RQQHFWRU 0 DVH RQQHFW 0 DEULF RQQHFW DEULF 0 RQQHFW 8 DEULF RQQHFW 7 WR 8 5 WR 8 DEULF RQQHFW 7 WR 8 5 WR 8 0 DEULF RQQHFW DEULF 0 RQQHFW 0 DVH RQQHFW 6 7 6 0 6 0 6 0 7UDQV IRUPHUV 6 0 6 0 8 57 WR 30 6 0 RRW HUQHO 125 O...

Page 70: ...ore On die common 512 KB L2 cache with ECC DDR3 memory controller and interface Local bus controller and interface DUART Programmable interrupt controller Three PCI Express interfaces 4 channel DMA controller Three 10 100 1000 Gigabit Ethernet MACs One high speed USB interface Enhanced secure digital SD host controller SPI interface Two I2C controllers Security engine with XOR acceleration JTAG in...

Page 71: ...ed to operate with a 2GB DDR3 VLP RDIMM from Smart Modular The operating system is currently limited to 2GB of DDR3 memory The SPD SROM Serial Presents Detect on each DIMM module provides all necessary information speed size type and the like to the boot firmware The SPD SROM is read through I2C Bus connected to the P2020 QorIQ Integrated Processor 4 3 4 Persistent Memory On the ATCA F125 the pers...

Page 72: ...erts the reset signal for at least 50ms 9 Read persistent memory bit in FPGA 10 Initialize main memory but do not clear persistent memory area 4 4 IPMI The IPMI function on ATCA F125 is implemented using the SMART Embedded Computing common ATCA base IPMI design This building block is based on the Pigeon Point Systems IMPI implementation using the Renesas HD64F2166 microcontroller which is part of ...

Page 73: ...ffer to support device programming and the IPMC console interface Refer to Table 58 for the header pinout This serial port will operate at 9600 baud rate The IPMC building block is designed to keep the payload running even during firmware upgrade When the payload is powered off hot plug compatible buffers are used on signals which bridge the management power domain and the payload power domain to ...

Page 74: ...0A Spartan 3A family FPGA is used on the board to provide a combination of glue logic functions and telecom clock support functions The FPGA functions include the following Local Bus Interface Local Bus Address Latch and Decoder Low Pin Count Interface between Host and IPMC Interrupt Routing Unit Reset Controller Local Bus to SPI Interface Telecom Clocking Support Service Processor Watchdog Timer ...

Page 75: ...nd MOSI pins and reads the configuration data over DIN Whether the configuration data is supplied by SPI Flash 1 or 2 is determined by the routing of the CSO_B signal which is controlled by the IPMC AUX_SS is deasserted by virtue of the fact the FPGA is not configured Configuration Flash programming A SPI controller in the FPGA driven by the service processor over the local bus controls CSO_B CCLK...

Page 76: ...ion 4 6 Boot and User Flashes Two 256 Mbit NOR Flash devices are used as boot devices for the service processor The flash devices used will be Numonyx PC28F256P33BF or equivalent devices The data bus width to the flash devices is 16 bit supporting word accesses only Figure 4 3 FPGA SPI ROM Configuration ...

Page 77: ...ad processor will boot from Boot Flash device 2 after reset The boot device from which the service processor has booted active bank is write protected and cannot be reprogrammed whereas the redundant boot device can be erased and reprogrammed Figure 4 4 Boot PROM Backup Recovery Table 4 2 Boot PROM Backup Recovery Operation Boot Select Chip Select Mapping Boot Device Erase Protection Low BOOT_FLAS...

Page 78: ...e full access to the BCM56334 switch traffic A block diagram of the base channel interconnect is shown in Figure 4 5 Some of the 1GbE SGMII ports from the BCM56334 have the option of being routed through muxes to different destinations as seen in the block diagram above for example to ToPSync or RTM The select pins for these mux demux switches are located in the FGPA to route the SGMII ports to th...

Page 79: ...4680 1 BIX Backplane Channel 7 1000B T 5 8 BIX_MDIO BIX_MDC 6 BCM54680 1 BIX Backplane Channel 8 1000B T 6 9 BIX_MDIO BIX_MDC 7 BCM54680 1 BIX Backplane Channel 9 1000B T 7 10 BIX_MDIO BIX_MDC 8 BCM54680 1 BIX Backplane Channel 10 1000B T 8 11 BIX_MDIO BIX_MDC 9 BCM54680 2 BIX Backplane Channel 11 1000B T 9 12 BIX_MDIO BIX_MDC 10 BCM54680 2 BIX Backplane Channel 12 1000B T 10 13 BIX_MDIO BIX_MDC 1...

Page 80: ... 19 17 BCM54616S to TopSync Clock TopSync or RTM SGMII 20 BIX RTM ETH1 SGMII 21 BIX RTM ETH2 SGMII 22 BIX RTM ETH3 SGMII 23 BIX RTM ETH4 SGMII HG 0 BIX_XGMDIO BIX_XGMDC 22 BCM8747 2 on RTM BIX RTM ETH6 XAUI HG 1 BIX_XGMDIO BIX_XGMDC 23 BCM8747 2 on RTM BIX RTM ETH5 XAUI HG 2 BIX_XGMDIO BIX_XGMDC 24 BCM8747 BIX Front ETH1 XAUI HG 3 BIX_XGMDIO BIX_XGMDC 25 BCM8747 BIX Front ETH2 XAUI Table 4 3 BCM56...

Page 81: ...he BCM8747 PHY is a four port XAUI to 10 Gb SFI PHY that provides the interface between two of the Base Switch 10GbE stacking ports and the front panel SFP modules The other two ports of the BCM8747 PHY provide the interface between two of the Fabric Switch 10GbE stacking ports and the front panel SFP modules The BCM8747 requires an external SPI flash device to load microcode into the device An AT...

Page 82: ...her XAUI uplink ports are routed to the BCM8747 XAUI SFI PHY to provide two SFP uplinks on the front panel One XAUI port is connected to a mux which can route the XAUI interface to AMC ports 8 11 The four 1 Gbps SGMII ports of the BCM56820 can be routed to different destinations across the board using a series of 2 channel 2 1 muxes The select pins for these mux demux switches are controlled by th...

Page 83: ...ckplane FC2 10GBase BX4 21 FIX Backplane FC3 10GBase BX4 22 4 FIX Backplane FC4 10GBase BX4 23 5 FIX Backplane FC5 10GBase BX4 0 6 FIX Backplane FC6 10GBase BX4 1 7 FIX Backplane FC7 10GBase BX4 2 8 FIX Backplane FC8 10GBase BX4 3 9 FIX Backplane FC9 10GBase BX4 5 10 FIX Backplane FC10 10GBase BX4 6 11 FIX Backplane FC11 10GBase BX4 7 12 FIX Backplane FC12 10GBase BX4 8 13 FIX Backplane FC13 10GBa...

Page 84: ...IX_MDIO FI X_MDC 2 20 BCM874 7 2 RTM FIX RTM ETH8 XAUI 11 FIX_MDIO FI X_MDC 2 21 BCM874 7 2 RTM FIX RTM ETH7 XAUI 12 FIX_MDIO FI X_MDC 2 26 BCM874 7 FIX Front ETH3 XAUI 13 FIX_MDIO FI X_MDC 2 27 BCM874 7 FIX Front ETH4 XAUI 1G 0 FIX RTM or AMC Port 1 SGMII 1G 1 FIX_MDIO FI X_MDC 0 FIX RTM or AMC X Connect SGMII 1G 2 FIX AMC Port 8 or MAC PHY Port 0 SGMII 1G 3 FIX AMC Port 9 or MAC PHY Port 1 SGMII...

Page 85: ...faces The service processor uses these I2C interfaces accessed through the PHY management port to read the module s on board EEPROM information to determine type and vendor specific information The individual TXONOFF signals on the BCM8747 are connected to the FPGA which allows them to be driven under software control This enables software to individually enable and disable the SFP optical outputs...

Page 86: ...ding on the PrAMC installed The ATCA F125 also routes AMC ports 4 7 as a x4 PCIE port directly to a BCM5709s dual MAC PHY controller The ATCA F125 provides current limiting power control to the AMC A hot swap control device is used to control the 12V payload power and 3 3V management power to the AMC as well as providing current limiting The IPMC sets a control output pin to control the direction ...

Page 87: ...Functional Description ATCA F125 6873M Artwork Installation and Use 6806800J94N 87 Figure 4 9 AMC Bay Connection Diagram ...

Page 88: ...outed to the AMC Fabric cross connect mux Table 4 6 AMC Bay Port Assignments Connector Region Port No PrAMC Usage ATCA F125 Source Target Clocking 1 TCLKA From FPGA Telecom Clock logic 2 TCLKB From FPGA Telecom Clock logic 3 TCLKC From FPGA Telecom Clock logic 4 TCLKD From FPGA Telecom Clock logic 5 FCLKA From PCIE 100 MHz differential clock distribution Common Options 0 Gigabit Ethernet Link 0 To...

Page 89: ...microcontroller boot code configuration data MAC addresses etc A 1 Mbit Atmel AT45DB011 device will be used for this purpose 4 10 2 Channel Cross Connect for BCM5709S The channel cross connect scheme for the BCM5709S is shown below in the following two figures Figure 4 10 Base Channel Cross Connect Figure 4 11 Fabric Channel Cross Connect ...

Page 90: ...ssor or the PrAMC processor depending on the state of the on board SATA mux The mux may be controlled the service processor or the IPMC through registers in the FPGA By default the mux will be configured to connect the SATA drive to the service processor 4 11 Telecom Clocking The ATCA F125 supports an optional telecom clocking subsystem that is responsible for the generation and distribution of tr...

Page 91: ... Installation and Use 6806800J94N 91 4 11 1 Telecom Clocking Subsystem This section shows an overall block diagram of the telecom clocking subsystem Later sections elaborate on the functionality of each block Figure 4 12 Telecom Clocking Subsystem ...

Page 92: ...Supply BITS or Source Synchronization Unit SSU A BITS is typically an output only device that provides a precision timing reference known as the T 3 clock to shelf level products that use this for synchronizing the local telecom clocks An SSU is similar to a BITS but can in turn synchronize itself to a linecard derived reference known as a T 4 clock The ATCA F125 provides dual T1 E1 interfaces to ...

Page 93: ...M Artwork Installation and Use 6806800J94N 93 4 12 Reset Structure The reset structure for the ATCA F125 is controlled by the FPGA The block diagram below shows the reset structure of the ATCA F125 Figure 4 14 Reset Structure Block Diagram ...

Page 94: ...l registers to their default values HRST_L may be asserted at any time completely asynchronously HRST_L needs to be asserted during power on reset During HRST_L assertion the configuration input signals are sampled into registers inside the P2020 QorIQ Integrated Processor Table 4 7 Reset Signals Reset Source HRST_L SRST_L FIX_RST_L BIX_RST_L PHY_RST_L QUAD_PHY_RST_L TELCO_RST_L BITS_RST_L MACPHY_...

Page 95: ...DR_RST_L signal 4 12 1 3 On board Flash All on board boot flash devices which are attached to the local bus are reset in parallel when the HRST_L signal gets asserted 4 12 1 4 Persistent Memory The persistent memory is only reset after power on reset In all other on board reset events the persistent memory is not reset if the persistent memory feature is enabled 4 12 2 Ethernet Switch Resets 4 12 ...

Page 96: ...he payload power of the carrier board is in a power cycle The IPMC drives the ENABLE signal active low as an input to the AMC module Broadcom BCM5709S Ethernet controller is reset in parallel to AMC by using the MACPHY_RST_L signal generated from the power control CPLD 4 12 5 Rear Transition Module The ARTM F125 does not have an MMC During normal operation the ARTM F125 and the ATCA F125 front boa...

Page 97: ... This FPGA includes an interrupt source register which reflects the actual interrupt status The interrupt inputs of the FPGA are mapped to the IRQ 11 0 signals which are connected to the P2020 QorIQ Integrated Processor Table 4 8 Interrupt Mapping Interrupt Source Port Signal Source Type P2020 IRQ BCM56334 INTA P2020 PCIE 1 INTA Internal 0 BITS Framer 1 DS26503 INT_L BITS1_INT_L Direct Active Low ...

Page 98: ... FPGA ORed Active Low LVTTL 7 BIX Octal PHY 2 BCM54680 2 IRQ_L 1 8 BIX PHY 3 BCM54616S 1 IRQ_L 1 TopSync PHY BCM54616S 2 IRQ_L 1 Front Panel PHY BCM54616S 3 IRQ_L 1 UC2 PHY BCM5482S IRQ_L 1 SP to BIX PHY BCM5482S IRQ_L 2 BCM56820 INTA P2020 PCIE 3 INTA internal 8 Table 4 8 Interrupt Mapping continued Interrupt Source Port Signal Source Type P2020 IRQ ...

Page 99: ...A ORed Active Low LVTTL 9 GPIO2 LASI2_L PCMULK2 PCDRLK2 PLOSB2 2 LASI_3 PCMULK3 PCDRLK3 PLOSB3 3 LASI4_LPC MULK4 PCDRLK4 PLOSB4 4 BIX SFP 1 ABS_INT FLT_INT LOS_INT BIX SFP 2 ABS_INT FLT_INT LOS_INT FIX SFP 1 ABS_INT FLT_INT LOS_INT FIX SFP 2 ABS_INT FLT_INT LOS_INT Table 4 8 Interrupt Mapping continued Interrupt Source Port Signal Source Type P2020 IRQ ...

Page 100: ...tion FPGA Clock Monitor Clock Monitor Done INT SP_IRQ10 FPGA Active Low LVTTL 10 GPIO3 FPGA Clock Monitor Clock Monitor Range INT ACS9510 TOPSYNC_I NT_S PERSISTENT MEMORY FPGA SP_IRQ11 FPGA Active Low LVTTL 11 GPIO4 Table 4 8 Interrupt Mapping continued Interrupt Source Port Signal Source Type P2020 IRQ ...

Page 101: ...me 5 2 Accessing U Boot The U boot can be accessed using the serial interface connector at the face plate of the ATCA F125 To connect you need a computer with a serial interface connector and a terminal emulation software such as HyperTerm running on it 1 Connect the console interface connector of the ATCA F125 to the serial interface connector of the computer 2 Configure the terminal software to ...

Page 102: ... the corresponding drivers are not initialized yet For more information see the U Boot documentation 1 Execute the following commands to specify the IP addresses of the ATCA F125 and the TFTP server by entering the following commands setenv ipaddr IP address of ATCA F125 setenv serverip IP address of TFTP server 2 Specify the names of the Linux kernel image and the NFS root directory setenv bootfi...

Page 103: ...that contains the RAM disk setenv ipaddr IP address of ATCA F125 setenv serverip IP address of TFTP server 2 Depending on your network configuration you may have to specify a gateway IP address and a netmask Use the following commands setenv gatewayip gateway IP setenv netmask netmask 3 Specify the name of the RAM disk image file setenv ramdiskfile filename setenv blobfile dtb file name 4 Configur...

Page 104: ... the kernel image in the respective boot flash This means that when the U Boot in a particular flash is executed it subsequently boots the kernel image in the same flash If necessary however you can select the kernel to boot manually using the following commands setenv kerneladdr e0000000 for the kernel in the currently active boot flash setenv kerneladdr e2000000 for the kernel in the currently s...

Page 105: ...page 101 3 Using the kernel memory map find the memory addresses of the kernel logs 4 To display the kernel logfile at any of these memory addresses enter the following command printf memory address The persistent memory feature can also be useful in the storage of application specific data Use the standard U Boot variable pram to reserve a memory region at the end of the physical memory This allo...

Page 106: ...ce dev mtd0 Kernel image 0xE0000000 0xE05FFFFF Active boot flash dev mtd1 Empty 0xE0600000 0xE1EFFFFF Active boot flash dev mtd2 Kernel DTB 0xE1F00000 0xE1F1FFFF Active boot flash dev mtd3 U boot parameters 0xE1F00000 0xE1F1FFFF Active boot flash dev mtd4 U Boot image 0xE2000000 0xE25FFFFF Active boot flash dev mtd5 Kernel image 0xE2000000 0xE25FFFFF Stand by boot flash dev mtd6 Empty 0xE2600000 0...

Page 107: ...owing XML like syntax T tag E Error_description E T tag identifies the device that was tested If no POST error was detected then the closing tag T follows immediately after the opening tag Error_Description contains an error description of the corresponding T tag Note that the T tags can be nested if for example several subtests are performed in one device See the following example T FPGA T T DRAM...

Page 108: ...OST Routines Device Description CPU Check PLL configuration PORPLLSR register Check device configuration PORDEVSR register FPGA Register sanity check The version code is checked It must not be 0x00 or 0xFF DRAM Address line and data line test Switch devices The PCI interface is checked as follows Check for configuration space access vendor device ID Perform walking one test on first memory mapped ...

Page 109: ...vice ID from PHY address 0 3 TSEC network port The PHY for each TSEC port is configured to loop back mode 100 and 1000 MBPS and 10000 loop back packets are sent and verified Boot flash Flash devices are sent into CFI query mode and the query string is verified RTM Check connectivity of 10G repeater devices on RTM Table 5 6 POST Routines continued Device Description Table 5 7 Environment Variable p...

Page 110: ...able 5 9 ATCA F125 Specific U Boot Environment Variables Environment Variable Description post_control See Table 5 7 phy_localloop Can be set to 10 100 1000 to configure a ETSEC port into PHY local loopback mode firmware_build Firmware build count read only inicmd Can be used to define a command sequence to be executed at the end of the boot sequence i e before the shell or bootcmd are executed dr...

Page 111: ...as well as a netmask setenv gatewayip gateway IP setenv netmask netmask 4 Load the image to the RAM tftpboot loadaddr U boot file name for example u boot 1 1 6 59 bin Speed 1000 full duplex Using eTSEC0 device post_result Contains the POST result string if POST has been executed rom_corruption Set to 1 if the CRC of the u boot image is incorrect Table 5 9 ATCA F125 Specific U Boot Environment Vari...

Page 112: ...d vice versa by entering the following command bootsel switch 9 In order to boot the new U Boot reset the blade protect off 2 252 258 addresses to the currently stand by U Boot bank while protect off 1 252 258 addresses the currently active U Boot bank The currently stand by U boot bank is always mapped to the start address 0xE2000000 while the currently active U boot bank is always mapped to 0xE0...

Page 113: ...fore replace the battery as described in this chapter Data Loss If the battery voltage drops below the minimum required level the RTC time will be lost Therefore replace the battery before seven years of actual battery use have elapsed Data Loss Replacing the battery will result in RTC data loss The RTC will have to be re initialized after the battery is replaced Data Loss Installing another batte...

Page 114: ...114 ATCA F125 6873M Artwork Installation and Use 6806800J94N Battery Exchange Battery Exchange ...

Page 115: ...or related specifications Note that the information in these documents are subject to change without notice Table B 1 SMART EC Documentation Document Title Publication Number ATCA F125 Data Sheet ATCA F125 DS ATCA F125 Quick Start Guide 6806800K92 ATCA F125 Safety Notes Summary 6806800K94 RTM ATCA F125 Installation and Use 6806800K30 RTM ATCA F125Quick Start Guide 6806800M56 RTM ATCA F125 Safety N...

Page 116: ...116 ATCA F125 6873M Artwork Installation and Use 6806800J94N Related Documentation Related Documentation ...

Page 117: ...1 ...

Page 118: ...registered trademark of SMART Modular Technologies Inc and SMART Embedded Computing and the SMART Embedded Computing logo are trademarks of SMART Modular Technologies Inc All other names and logos referred to are trade names trademarks or registered trademarks of their respective owners ...

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