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- Page 1 Embedded Computing for Business-Critical Continuity RTM-ATCA-F125 Installation and Use P/N: 6806800K30C December 2012...
- Page 2 Emerson reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of Emerson to notify any person of such revision or changes.
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Page 3: Table Of Contents
4.3.3 SFP Connection ............. . 40 RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 4 Related Documentation ............. . . 49 Emerson Network Power - Embedded Computing Documents ......49...
- Page 5 Index ................. . . 61 RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 6 Contents Contents Contents RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 7 RTM-ATCA-F125 Mechanical Data ........
- Page 8 List of Tables RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 9 Fabric 10 GB Interconnect ..........41 RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 10 List of Figures RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 11 RTM and provides some information on the IPMI functionality of the RTM. Related Documentation lists further Emerson user manuals that are related to the RTM and the ATCA-F125. Abbreviations This document uses the following abbreviations:...
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Page 12: About This Manual
Repeated item for example node 1, node 2, ..., node Omission of information from example/command that is not necessary at the time being Ranges, for example: 0..4 means one of the integers 0,1,2,3, and 4 (used in registers) Logical OR RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 13: Features
GA Version Updated Figure "Declaration of Conformity" on page 6806800K30B March, 2012 updated Chapter 1, Features, Chapter 3, Overview, Chapter 4, Functional Description, Safety Notes, Sicherheitshinweise 6806800K30C December 2012 Updated Chapter 1, Standard Compliances, on page RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 14 About this Manual About this Manual RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 15: Introduction
The RTM-ATCA-F125 provides the I/O connection for the ATCA-F125 switch blade towards the back of the system. RTM-ATCA-F125 is directly connected to and powered by the front board. The RTM-ATCA-F125 is a rear transition module (RTM) as defined in PICMG 3.0 Revision 3.0 Advanced TCA Base Specification and PICMG 3.1 Revision 1.0 Specification Ethernet/Fiber... - Page 16 Telcordia GR-63-CORE, NEBS Requirements: Physical Protection. IEC 60950-1 CB Scheme The product complies with IEC 60950-1 CB Scheme including all National Deviations Safety of Information Technology Equipment. Testing shall be by an accredited lab. RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 17: Mechanical Data
Ethernet ports. For Declaration of Conformity, refer RTM-ATCA-F125 Declaration of Conformity.. Mechanical Data Table 1-2 RTM-ATCA-F125 Mechanical Data Data Value Dimensions 8U x 6 HP form factor - 30 mm x 351 mm x 143 mm (including face plate... -
Page 18: Ordering Information
Ordering Information The following table lists the blade variants that were available as of the time of writing this manual. Consult your local Emerson sales representative for the availability of further variants. Table 1-3 Blade Variants - Ordering Information Part Number... -
Page 19: Hardware Preparation And Installation
4.4 cfm at 55 °C ambient temperature Shipment Inspection To inspect the shipment, perform the following steps: 1. Verify that you have received all items of your shipment: Printed Quick Start Guide and Safety Notes Summary RTM-ATCA-F125 RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 20: Environmental And Power Requirements
The environmental requirements of the blade may be further limited down due to installed accessories, such as hard disks or PMC modules, with more restrictive environmental requirements. Operating temperatures refer to the temperature of the air circulating around the blade and not to the actual component temperature. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 21: Table 2-1 Environmental Conditions
40°C (104°F) under normal operating conditions. Under abnormal Short Term operating conditions such as an HVAC failure the RTM shall require no more than 4.4 CFM at the inlet ambient of 55°C (131°F). RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 22: Rtm Installation And Removal
Incorrect installation of the RTM can cause damage of the RTM. Only use handles when installing or removing the RTM to avoid damage/deformation to the face plate and/or the PCB. 2.4.1 Installing the RTM To install the RTM into an AdvancedTCA Shelf, proceed as follows. RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 23 Do not rotate the handle fully outward. When the blue LED on the front blade is permanently illuminated, proceed to the next step. RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 24 5. Apply equal and steady pressure to the RTM to carefully slide the RTM into the shelf until you feel resistance. Continue to gently push the RTM until the connectors engage. 6. Squeeze the lever and the latch together and hook the lower and the upper handle into the shelf rail recesses RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 25 10.If the front blade has not been installed, proceed with the installation instructions in the front blade installation and use manual. Make sure that the handles of both the RTM and the front blade are closed in order to power up the blade and RTM payload. RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 26: Removing The Rtm
If the LED continues to blink, a possible reason may be that upper layer software rejects the blade extraction request 3. Remove face plate cables, if applicable. 4. Unfasten the screws of the RTM face plate until the RTM is detached from the shelf. RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 27 Hardware Preparation and Installation 5. Unlatch the RTM upper and lower handles and rotate fully outward. Remove the blade from the shelf. RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 28 Hardware Preparation and Installation RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 29: Controls, Leds, And Connectors
Chapter 3 Controls, LEDs, and Connectors Overview This chapter describes: Face plate connectors Face plate LEDs Face Plate Connectors and LEDs The following figure shows the face plate of the RTM. RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 30 Controls, LEDs, and Connectors Figure 3-1 Face Plate RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 31: Leds
Controls, LEDs, and Connectors 3.2.1 LEDs RTM-ATCA-F125 provides four panel-visible LEDs that provide the standard ATCA management LED functions: Red (out of service) Green (in service) Blue (hot-swap initializing/ shutting down) Amber (attention) RTM-ATCA-F125 Installation and Use (6806800K30C) - Page 32 Controls, LEDs, and Connectors RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 33: Functional Description
Figure 4-1 Block Diagram Management Resources The RTM-ATCA-F125 does not include its own management controller (MMC) and cannot independently support the ATCA hot-swap protocol. The RTM-ATCA-F125 provides the necessary resources to allow management by the front-blade IPMC. These resources are associated with a dedicated I2C port connected to the front-blade IPMC. -
Page 34: Fru Serial Eeprom
4.2.1 FRU Serial EEPROM The RTM-ATCA-F125 provides a 128 Kb (16 K byte) I2C serial EEPROM. This is a 24LC128 type device. The EEPROM resides at I2C address 0xA0. This serial EEPROM is intended to hold FRU data and any additional parameters that are required. - Page 35 3.3V. The control for the blue LED is active high. The PROM_SEL signal indicates which bank of FPGA FLASH is currently selected. The FPGA_DONE signal indicates the FPGA load from FLASH is incomplete. The I/O expander resides at I2C address 0x40. RTM-ATCA-F125 Installation and Use (6806800K30C)
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Page 36: I2C Address Map
Temperature sensor (top) 0x92 Temperature sensor (middle) 0x94 Temperature sensor (bottom) 0xA0 FRU Serial EEPROM 1 Gbps SFP Ports The RTM-ATCA-F125 provides four 1 Gbps SFP module sites, which are connected to the front- blade base switch. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 37: Connectivity
The four SFP sites are connected to the front-blade base switch according to the table below.. Table 4-4 Front-Blade Port Mapping RTM Port Front Blade Base Switch Port ETH1 ge20 ETH2 ge21 ETH3 ge22 ETH4 ge23 RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 38: I2C Bus
SFP Status Signals The SFP status signals, MOD_ABS, TX_FAULT and LOS, are individually connected to the RTM FPGA to allow monitoring by the service processor. Refer to the Chapter 4, FPGA, on page 44 for details. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 39: Sfp Control Signals
Chapter 4, FPGA, on page 44 details. 10 Gbps SFP+ Ports The RTM-ATCA-F125 provides a total of eight 10 Gbps SFP+ module sites. Six of these connect to the fabric switch on the front-blade and two to the base switch. 4.4.1... -
Page 40: Front-Blade Port Mapping
4.4.4 Transmitter Control The TXONOFF signals on each BCM8747 are connected together to the RTM FPGA whichallows them to be driven under software control. This enables software to enable and disable the SFP+ optical outputs. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 41: Bcm8747 Status
I2C Bus The SFP+ I2C bus signals (I2C_SDA and I2C_SCL) from each SFP+ site are individually connected to the corresponding BCM8747 which includes a mechanism to allow access to the port through the phy management channel. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 42: Sfp+ Status Signals
The 1PPS, 10MHz, and TOD inputs for connection to an external GPS receiver are not supported at present. FPGA The RTM-ATCA-F125 includes a Xilinx XC3S200A-4 FPGA that which performs the following functions: Access to control and status signals on SFP and SFP+ sites... -
Page 43: Front-Blade Interface
Functional Description 4.6.1 Front-blade Interface The RTM-ATCA-F125 includes an SPI interface between the front-blade service processor and the RTM FPGA. There is also an active low interrupt line to the front-blade to request service. 4.6.2 SFP/SFP+ Control and Status The RTM FPGA provides register access to control the following SFP and SFP+ signals:... -
Page 44: Sfp I2C Interface
Register settings allow access to be granted to either BCM8747 and also provide a programming port. 4.6.7 FPGA Register Map Details of the FPGA register map are included in the RTM FPGA section of the ATCA-F125 FPGA design guide. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 45: Fpga Configuration
+3.3 V management power — one pin +12 V payload power — four pins The maximum current draw, which is limited by the pin’s current handling capability, is 0.8A for the management power and 3.2A for the payload power. RTM-ATCA-F125 Installation and Use (6806800K30C) -
Page 46: Power-Good Indication
Since this signal comes from the FPGA, it also serves as an indication that the FPGA configuration has completed. 4.8.2 Power Requirements The table below summarizes the power requirements of the RTM-ATCA-F125. Table 4-9 Power Requirements Voltage Maximum Current +3.3V Management... -
Page 47: Related Documentation
The publications listed below are referenced in this manual. You can obtain electronic copies of Emerson Network Power - Embedded Computing publications by contacting your local Emerson Sales Office. For released products, you can also visit our Web site for the latest copies of our product documentation. - Page 48 Related Documentation RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 49 Emerson intends to provide all necessary information to install and handle the product in this manual. Because of the complexity of this product and its various uses, we do not guarantee that the given information is complete.
- Page 50 Changes or modifications not expressly approved by Emerson could void the user's authority to operate the equipment. Board products are tested in a representative system to show compliance with the above mentioned requirements.
- Page 51 Safety Notes Emerson and our suppliers take significant steps to ensure there are no bent pins on the backplane or connector damage to the blades/RTMs prior to leaving the factory. Bent pins caused by improper installation or by inserting blades with damaged connectors could void the Emerson warranty for the backplane or blades.
- Page 52 SFP/SFP+ module inoperable. Only remove the optical plug when you are ready to connect a cable to the SFP/SFP+ module. When no cable is connected, cover the port with an optical port plug. RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 53 Produkt mit vielfältigen Einsatzmöglichkeiten handelt, können wir die Vollständigkeit der im Handbuch enthaltenen Informationen nicht garantieren. Falls Sie weitere Informationen benötigen sollten, wenden Sie sich bitte an die für Sie zuständige Geschäftsstelle von Emerson. Das System erfüllt die für die Industrie geforderten Sicherheitsvorschriften und darf ausschließlich für Anwendungen in der Telekommunikationsindustrie und im Zusammenhang...
- Page 54 Sicherheitshinweise Das Produkt wurde in einem Emerson Standard system getestet. Es erfüllt die für digitale Geräte der Klasse A gültigen Grenzwerte in einem solchen System gemäß den FCC-Richtlinien Abschnitt 15 bzw. EN 55022 Klasse A. Diese Grenzwerte sollen einen angemessenen Schutz vor Störstrahlung beim Betrieb des Produktes in Gewerbe- sowie Industriegebieten...
- Page 55 Pins und Stecker von Blades/RTMs vor dem Verlassen der Produktionsstätte in einwandfreiem Zustand befinden. Verbogene Pins, verursacht durch fehlerhafte Installation oder durch Installation von Blades/RTMs mit beschädigten Steckern kann die durch Emerson gewährte Garantie für Blades und Backplanes erlöschen lassen.
- Page 56 Die Installation und der Betrieb von SFP/SFP+-Modulen, welche nicht zertifiziert sind und welche nicht den Sicherheitsstandards entsprechen, kann Verletzungen zur Folge haben sowie zur Beschädigung des RTMs und von SFP/SFP+-Modulen führen. Verwenden Sie daher nur SFP/SFP+-Module, die zertifiziert sind und die den Sicherheitsstandards entsprechen. RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 57 Die Schutzkappe eines SFP/SFP+-Modules dient dazu, die sensible Optik des SFP/SFP+- Modules gegen Staub und Schmutz zu schützen. Entfernen Sie die Schutzkappe nur dann, wenn Sie beabsichtigen, ein Kabel anzuschließen. Andernfalls belassen Sie die Schutzkappe auf dem SFP/SFP+-Modul. RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 58 Sicherheitshinweise RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 59 Index abbreviations block diagram connectors controls conventions environmental requirements face plate features functional description installation, hardware installation, RTM leds removal, RTM RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 60 Index RTM-ATCA-F125 Installation and Use (6806800K30C)
- Page 62 Precision Cooling Surge & Signal Protection Emerson, Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. All other product or service names are the property of their respective owners.
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