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Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT • FAST SHIPPING AND DELIVERY Experienced engineers and technicians on staff Sell your excess, underutilized, and idle used equipment at our full-service, in-house repair center We also offer credit for buy-backs and trade-ins •...
Corporation, Hewlett‐Packard Company, NEC Corporation, Dell Inc, 2004. • RFC2460— IPv6 Internet Protocol, Version 6, Internet Engineering Task Force (IETF) Internet Society (ISOC), 1998. 1. An asterisk indicates a trademark of GE Intelligent Platfroms, Inc. and/or its affiliates. All other trademarks are properties of their respective owners. Preface 9 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
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Notation Conventions This manual uses the following notation conventions: • Italics emphasizes words in text, register field names, and documentation or chapter titles. • Notes, cautions, and warnings call attention to essential information: NOTE A Note calls attention to important information, such as tips and advice. CAUTION A Caution alerts you to conditions that could damage a device, system, or data. WARNING A Warning calls attention to actions that can cause risk of personal injury.
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Warranty and Repair GE Intelligent Platforms, Inc. provides a comprehensive web site on the World Wide Web (http://www.ge‐ip.com.) This web site contains up‐to‐date information including current and new products, such as the NETernity family of Ethernet switches. The web site also contains sales office locations, copyrights, trademarks, press releases, warranties, and technical support information. Warranty Warranty information is described on the GE Intelligent Platforms’ web site at http://www.ge‐ip.com/embeddedsupport/warranty. This site provides current product warranty and repair services as well as information on out‐of‐warranty services. For additional information on specific product warranty, contact a GE Intelligent Platforms sales representative. Customer Technical Support GE Intelligent Platforms’ dedicated team of Customer Technical Support Engineers is committed to providing quality support to all their customers. Customer Technical Support Engineers are trained to assist GE Intelligent Platforms customers in the development, integration, and use of GE products in customer applications, systems, and products to facilitate timely product development. The Customer Technical Support Service Center is staffed weekdays (except holidays) between the hours of 8:00 AM and 5:00 PM Central Time (CT). Use one of the following methods to contact technical support: Email: support.embeddedsystems.ip@ge.com Telephone: 1‐800‐433‐2682 Address: GE Intelligent Platforms, Inc. 12090 South Memorial Parkway Huntsville, AL 35803‐3308 Hours: 8:00 AM to 5:00 PM (CT) Before contacting technical support, make sure you have the following information available: • Model and Revision number ...
1 • Getting Started The NETernity CP921RC‐30X is a fully‐managed L2/L3+ Ethernet embedded switch. The NETernity CP921RC‐30X offers full IPv6 support with wire‐speed switching and routing, and full management capabilities via local or remote access. The NETernity CP921RC‐30X Switches comply with the PICMG 2.16 specifications and are designed for installation in a Compact Peripheral Component Interconnect (cPCI) chassis in standard or rack‐mount configurations. Select models can support industrial temperature environments. NETernity CP921RC‐30X Switches provide integrated Layer‐2/3+ switching capabilities as well as the ability to support higher Layer 4‐7 functionality, when required. NETernity CP921RC‐30X Switches offer configurations with either: • 24 rear I/O 10/100/1000BASE ports, or • 22 rear I/O 10/100/1000BASE‐T port and four front panel copper or fiber ports via: – Two 10Gigabit Ethernet (GbE) connections via SFP+ transceivers, and – Two 1GbE connections via SFP transceivers Optionally, in conjunction with the TRCP9xx‐5RC rear transition module, the NETernity CP921RC‐30X provides 19 ports for use in accordance with the PICMG 2.16 specification, while the remaining 5 ports are available as additional links through the rear I/O. NETernity CP921RC‐30X Switches provide an on‐board Processor with extensive value‐added software. The fully managed software package provides seamless integration into the shelf and shelf management with Intelligent Platform Management Interface (IPMI) version 1.5 support including hot‐swap capabilities and basic Fabric reset. Software is described in a separate manual entitled, the“OpenWare* Switch Management Control for NETernity Configuration Managed Switch Families — Operator’s Reference Manual.” Getting Started 13 Artisan Technology Group - Quality Instrumentation ...
1.1 Handling Precautions Read the following ElectroStatic Discharge (ESD) and laser/optical precautions before handling any GE Intelligent Platforms component. NOTE GE Intelligent Platforms, Inc. assumes no liability for the user’s failure to comply with these required precautions. 1.1.1 ESD Precautions Always take the necessary precautions to prevent ESD. ESD can damage the CP921RC‐30X, which has ESD sensitive components. All products should be in an anti‐static plastic bag or conductive foam for storage or shipment. Work at an approved anti‐static workstation when unpacking the CP921RC‐30X. Also, always use anti‐static grounding straps to prevent damage due to ESD. Use the following precautions to prevent ESD when removing or inserting the board from the antistatic packaging. CAUTION Always ground yourself before touching the board. You can ground yourself by...
1.1.2 Laser/Optical Precautions This product may or may not be provided with an optical device and/or fiber optic transceivers. Each optical/laser devices contains a laser that is classified as Class 1 Laser Product in accordance with US FDA regulations and IEC 60825‐1. WARNING 1. For this product use only Class 1 laser devices that have the following approvals: – FDA 21 CFR 1040.10, 11 – IEC 60825-1 Use of controls or adjustments or performance or procedures other than those specified herein, or in the laser product’s installation guide, may result in hazardous radiation exposure.
Because of the danger of introducing additional hazards, do not install substitute parts or perform any unauthorized modification to the product . Return the product to GE Intelligent Platforms for service and repair to ensure that safety features are maintained.
1.4 Unpacking Procedures Always observe any precautions found in the shipping container. All items should be carefully unpacked and thoroughly inspected for damage that might have occurred during shipment. The board should be checked for broken components, damaged printed circuit board, heat damage and other visible contamination. All claims arising from shipping damage should be filed with the carrier and a complete report sent to GE Intelligent Platforms Customer Technical Support. 1.5 Identifying the Board The CP921RC‐30X has an etched or printed label that contain the Serial Number and board Revision Number in addition to copyright information, similar to that shown in Figure 1‐1. Use this information to make sure that the model and version are the product that you ordered. This information is also useful should you need to contact Customer Technical Support. Figure 1-1 Identifying the Board Getting Started 17 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
1.6 Connector Keys Within the J4 Connector, there is a connector cavity that allows the CP921RC‐30X to offer keying for standard and extended fabric connections. Standard Chassis All models of the CP921RC‐30X contain the standard Fabric keying, which is a Blue/Lilac Key in the connector cavity. This key is used to connect the CP921RC‐ 30X to a standard 19 ‐Slot chassis backplane. Extended Chassis Configuration requiring the insertion of the CP921RC‐30X into an Extended Chassis with 24 slots, must order the optional Yellow/Ochre Key available from GE Intelligent Platforms (Part No. 42G‐8519‐1). Contact your GE Intelligent Platforms sales representative for more information about the optional Yellow/ Ochre Key. 1.7 System Requirements The CP921RC‐30X installation requires the following: • Size 6U chassis with appropriate slots, power supply, and fan(s). • One fabric slot in PICMG 2.16 Packet Switching Backplane backplane. • Appropriate J4 Connector Key. 1.8 Installation Procedure It is assumed that the installer is the service personnel familiar with commonly accepted procedures for integrating electronic equipment. This installation also assume you are installing the CP921RC‐30X in a standard configuration. Before installing the CP921RC‐30X and, optional RTM, identify the slots in which the boards are to be placed. The RTM slot must align with the slot for the CP921RC‐30X in the front of the chassis as shown in Figure 1‐2. CAUTION The RTM must be installed before the CP921RC-30X.
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To install the CP921RC‐30X or the RTM into the cPCI chassis, perform the following steps: 1. Make sure you are grounded and are following all the safety precautions. 2. Remove the board from its anti‐static packaging, and place the board on an anti‐static mat. Save the packaging for future use. 3. Turn OFF power to the chassis. (For hot swap versions, the board can be plugged in while the chassis is powered on.) Remove the power cable to reduce the risk of residual power in the power supply. 4. Locate the slot in the chassis in which you want to install the CP921RC‐30X or the RTM. 5. Observing proper anti‐static procedures, slide the board into the desired slot. Use the Ejector Handle to gently, but firmly, push the board into the slot. Make sure the board is fully seated in the backplane. CAUTION Do not force the connectors on the board to mate with the backplane as this may cause permanent damage to the board. 6. ...
1.9 CP921RC-30X Front Panel After you have successfully installed the CP921RC‐30X in a chassis, and connected appropriate cables, apply power to the system. Before applying power, become familiar with the front panel for the CP921RC‐30X model you have selected. 1.9.1 Front Panel LEDs and Button As shown in Figure 1‐4, the CP921RC‐300 and CP921RC‐301 models contain two front panel board status LEDs: one to indicate hot swap (HS) status and one for (FLT) faults. There is also an IPMI RUN LED and an IPMI FAIL LED, and link (LNK) status and activity (ACT) LEDs. In addition to LEDs, the front panels also contain a Reset (RST) Button and ejector handle mechanisms. NOTE The CP921RC-300-IND model does have front panel LEDs. Figure 1-4 CP921RC-30x Front Panels 1.9.2 Reset Button Pressing the red Reset (RST) Button asserts the local reset, which causes all components to reset. The Switch Fabric devices are put into a reset state, and the Processor is reloaded. Getting Started 21 Artisan Technology Group - Quality Instrumentation ...
1.9.3 Front Panel LEDs The front panel has Module and Link Status LEDs. Module Status There are four LEDs on the CP921RC‐30X: one blue Hot Swap (HS) and one red LEDs Fault (FLT). One green IPMI RUN and one red IPMI FAIL LED. Table 1‐1 describes these LEDs. The blue hot swap (HS) LED is located on the bottom of the front panel. This LED blinks when a hot‐swap is initiated, and lights steadily when it is safe to remove the CP921RC‐30X from the chassis. There are two IPMI LEDs. The IPMI FAIL LED lights up when the IPMI Hot Swap (HS) Controller detects a fault. The IPMI RUN LED indicates that the IPMC is functioning properly. Table 1-1 LED Indications LEDs Color Indicator State Description Not okay to remove the board. Blue Hot Swap Okay to remove the board. Hot Swap IPMI Hot Swap Controller fault detected.
• IPMI Controller for PICMG 2.9‐compliant shelf management through IPMB‐ 0 serial bus • Power regulators onboard for power distribution All NETernity CP921RC‐30X Switches are factory installed with default settings and configuration. The NETernity CP921RC‐30X Switches (hereafter referred to as CP921RC‐30X) are available in the models listed in Table 2‐1. Table 2‐2 lists supported Rear Transition Modules (RTM), which are used in conjunction with the CP921RC‐30X. All CP921RC‐30X and RTM models are available with polyurethane conformal coating (–CC) or acrylic conformal coating (—CCA). NOTE For additional configurations, please contact a GE Intelligent Platforms’ sales representative. Product Description 23 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
Table 2-1 NETernity CP921RC-30X Switch Models Rear I/O Ports Front Panel Models with F-Link Temperature SFP GbE Ports SFP+ 10GbE Ports Support CP921RC-300 Standard CP921RC-300-IND Industrial CP921RC-301 Standard Table 2-2 Supported RTMs Size 10/100/1000Base-TX Ports Model Fabric-to-Fabric Link (Slots) via RJ-45 connectors TRCP9xxRC Double TRCP9xxRC-12...
2.2 Hardware Description The CP921RC‐30X hardware design is comprised of two boards: • Base Switch Board • Management Board Figure 2‐1 shows a simple block diagram of the CP921RC‐30X. Base Switch Board The Base Switch Board incorporates a highly‐integrated Gigabit Ethernet multi‐ layer Switch Fabric from the Broadcom® BCM563xx family to provide 10/100/ 1000 Gigabit Ethernet wire‐speed switching. The Switch Fabric supports IPv6 routing functions. Management The Management Board contains a Processor. This Processor configures and Board manages both the switch and port controllers, and provides command and status information for each port. The Processor is able to terminate packets that are sent to it. The Processor can be accessed through a serial cable console or remotely using the 10/100Mbps port. (The MAC address of the CP921RC‐30X is stored in EEPROM.) The Processor interfaces to the Switch Fabric through the 32‐bit PCI bus running at 66 MHz. The Management Board supports 8‐bit Error Correction Code (ECC) interfaces. The Management Board also contains an IPMI Controller for communications with an external shelf manager. Product Description 25 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
2.3 Base Switch Overview The CP921RC‐30X features the following components on the Base Switch board: • 24‐Port GbE Switch Fabric with three Octal 1GbE PHYs • Complex Programmable Logic Device (CPLD) • IPMI Controller (IPMC) • 10Gigabit/1Gigabit options, including: – Two 10GbE ports with 10GbE PHY and SFP+ cages – Two 1GbE ports with GbE PHY and SFP cages • Front panel LEDs for link/activity status and reset • Temperature sensors 2.4 24-Port GbE Switch The Base Switch Board incorporates a Switch that can operate at 10/100/1000 Mbps for 24 Gigabit Ethernet ports, and on select models includes two 10GbE ports and two GbE ports. This Switch integrates sophisticated advanced L3 switching features for cost‐effective, highly‐manageable enterprise networks. The Switch performs IPv6 routing and transition services in hardware, allowing deployment of L3 switches that are future‐proof, highly‐manageable L3 networks, and enable cost‐effective transition from IPv4 to IPv6. The Switch interfaces to the Management Board via a 32‐bit PCI bus running at 66 MHz, through which the Processor on the Management Board configures the Switch. The Switch interfaces to the three octal PHYs through the Serial Gigabit Media Independent Interface (SGMII) interface. The Switch supports PHY management through the serial Management Data Input/Output (MDIO) / Management Data Clock (MDC) interface. Fabric Link As shown in Figure 2‐1, all 24 ports are routed to the Rear Transition Module ...
2.5 Octal GbE PHYs The Base Switch Board uses three octal 10/100/1000Base‐T Gigabit Ethernet transceivers to perform automatic MDI crossover during Auto‐Negotiation phase. Auto‐negotiation is an optional function of the IEEE 802.3u Fast Ethernet standard, which enables devices to automatically exchange information about speed and duplex abilities over a link PHY addresses are given in Table 2‐3. Table 2-3 PHY Addresses Address PHY1 00001xb PHY2 01001xb PHY3 10001xb 2.6 10GbE PHY The CP921RC‐30X uses dual‐channel Gigabit Ethernet SFI‐to‐XAUI (SerDes Framer Interface to 10 GBps Attachment Unit Interface) transceiver that incorporate an Electronic Dispersion Compensation (EDC) qualifiers supporting SFP+, SR, LR, and LRM optical interfaces. It also supports up to 15meters over SFP+ copper twin‐axial cable. The 10GbE PHY interfaces to the Switch Fabric through the XAUI interfaces, which contains 4‐lane, 3.125Gbps differential line. The receiver path accepts 10.3125 Gbps serial Physical Medium Dependent (PMD) data and reformats the data for transmission on 4‐lane 3.125Gbps XAUI transmitters. The transmit path collects four‐lane 3.125 Gbps data at the XAUI receivers and reformats the data for 10.3125 Gbps serial transmission at the PMD differential Current Mode Logic (CML) drivers. An external 156.25MHz differential Low‐Voltage Positive/Pseudo Emitter‐Coupled Logic (LVPECL) oscillator is provided for the reference clock input. The 10GbE PHY contains a management data I/O interface that provides access to the internal registers via the MDIO/MDC pins. It also provides a two‐wire serial interface that allow the system to access external slave devices through the MDIO interface. ...
2.7 CPLD A CPLD implements the following: • All logic for the reset function • CompactPCI hot swap requirements • Link and Activity status LEDs for the two front panel 10 GbE SFP ports • Control and status for the 1GbE SFP I/O functions such as SFP_PRSNT, SFP_TXEN, SFP_RXLOS. As shown in a simple diagram in Figure 2‐3, the CPLD monitors the SFP_PRSNT signal from each 1GbE SFP. When a 1GbE SFP is inserted into the socket, the CPLD asserts the SFP_PRSNT signal to the Processor. The CPLD also asserts the Change‐of‐State interrupt request (COS_IRQ) and other control and status signals. Figure 2-3 Status and Control Functions 30 NETernity CP921RC-30X Hardware Reference Manual Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
2.8 IPMI Controller The Intelligent Platform Management Controller (IPMC) on the Management Board of the CP921RC‐30X provides management and identification functions of the CP921RC‐30X using the Intelligent Platform Management Interface (IPMI) protocol. The IPMC Subsystem (hereafter referred to as the IPMC) provides the common interface to the CP921RC‐30X for hardware health monitoring and system management. The IPMC monitors the physical health of the CP921RC‐30X including air inlet and outlet board temperature and on‐board power supply voltage levels. The IPMC complies with industry standards to provide an always available board that supports the following features: • Monitoring of hardware information, such as voltage and temperature • Monitoring of hardware sensors and alarm generation (alerts) • Field Replaceable Unit (FRU) hot swap functions All configuration for the CP921RC‐30X is performed by the IPMC. IPMI signals are routed to backplane and pin assignment are described in Chapter 3 • ʺConnectors and Pin Assignmentsʺ. The CP921RC‐30X supports IPMI as a satellite controller and complies with IPMI specification to provide the Baseboard Management Controller (BMC) functions. The BMC is the intelligence in the IPMI architecture. The BMC manages the interface between system management software and platform hardware to provide monitoring, event logging and recovery control. The CP921RC‐30X supports IPMI version 1.5, which the BMC and user management software must also support. Refer to the Intelligent Platform Management Interface specification, version 1.5, for more information including a listing of IPMI commands. Table 2-4 IPMI Status Code Status Code Description 0x80 Application get message command, no data available 0xB0...
2.8.1 Platform Events A platform event is an event that is originated directly from platform firmware or platform hardware independently of the state of the operating system or system management hardware. The CP921RC‐30X does not send a Platform Event until a BMC sends the switch IPMI Set Event Receiver command with an Event Receiver Slave Address that is not 0xFF. The default Event Receiver Slave Address is 0xFF, which disables event messages. The Platform Event message generated by the CP921RC‐30X contains three bytes of Event Data. The discrete sensor class data is returned. Event Data byte 3 is an OEM (vendor specific) value, which is set to the sensor reading value for the sensor that generated the event message. Table 2.9 describes Sensor information for the CCP921RC‐30X. Sensor events returned per sensor include: • Normal • Non‐Critical • Critical Table 2-5 Sensors Information CP921RC-300 CP921RC-301 Sensor Sensor Description Description Record Number Record Number 5.0 volt power 5.0 volt power 3.3 volt power 3.3 volt power 2.5 volt power...
2.11 Rear Transition Modules This section describes the rear transition modules, which provide rear‐panel I/O access to all CP921RC‐30X ports. The following are compatible Rear Transition Modules, which are IEEE 802.3 compliant: • TRCP9xxRC • TRCP9xxRC‐12 • TRCP9xx‐5RC • TRCP9xx‐5RC‐F Depending on the model, up to 24 Gigabit Ethernet ports of the CP921RC‐30X are accessible from the copper RJ‐45 connectors. Each Ethernet port is routed on the Base Switch Board as well as on the transition module as four 100 Ohm differential pairs. On select models, there is a 10/100 Fast Ethernet Fabric Port and/or a 10/100 Fast Ethernet Local Management Port. An RS‐232 connector provides access to the local command console. 34 NETernity CP921RC-30X Hardware Reference Manual Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
2.11.3 TRCP9xx-5RC Figure 2‐6 shows the faceplate of the TRCP9xx‐5RC RTM. Table 2‐11 describes the connectors. Figure 2-6 TRCP9xx-5RC Faceplate Table 2-11 TRCP9xx-5RC Connectors Connectors Description 20—24 Gb Ethernet Ports Serial 0 Local RS-232 Command Console 10/100 Fast Ethernet Fabric Port Serial 1 Reserved Port B 10/100 Fast Ethernet Local Management port 25, 26 Reserved Product Description 37...
3 • Connectors and Pin Assignments This chapter describes the pin assignments for cPCI backplane connectors and RJ‐ 45 connectors on select models of the CP921RC‐30X. This chapter also describes the RS‐232 serial cable for the H1 Header on the rear transition module. 3.1 CompactPCI Backplane Connectors The cPCI backplane connectors include the IPMI bus and the J1 through J5 connectors. 3.1.1 IPMI Bus The CP921RC‐30X supports the main IPMI bus (IPMB‐0). IPMB‐0 connects to the IPMC through an I2C buffer. Table 3‐1 describes the cPCI backplane pin assignment for IPMB‐0. Table 3-1 cPCI Backplane Pin Assignment for IPMB-0 IPMB-0 Characteristic SCLK (I2C Clock) SDAT (I2C Data) Pin Name IPMB-SCL IPMB-SDA IPMB_PWR System Slot...
3.1.2 J1, J2, J3, J4, and J5 Connector Pin Assignments This section contains the pin assignments for the J1, J2, J3, J4 and J5 Connectors. A dash (—) in a field indicates that the pin is not used. Table 3-2 J1 Connector Pin Assignments — ENUM# +3.3V — — — — — — +3.3V — — — — +3.3V — — — +3.3V — — — —...
3.2 Port Mapping This section contains the port mapping for the following: • Octal GbE PHYs • IPMI Controller 3.2.1 GbE PHY Port Mapping The CP921RC‐300 use three octal 10/100/100BASE‐T PHYs as shown in Figure 2‐1. Port mapping enables the creation of a permanent translation entry that maps a specific Switch Fabric port to a specific PHY port. Table 3‐7 lists the address for each PHY. Table 3‐8 specifies the port mapping. Table 3-7 GbE PHY Addresses Address PHY1 00001xb PHY2 01001xb PHY3 10001xb Table 3-8 Octal GbE PHY Port Mapping Access 24 Port Physical Port Octal PHYs GbE Switch...
3.2.2 IPMC Port Mapping The IPMC implements the IPMI functionality. The IPMC firmware is stored in EEPROM. Table 3‐9 describes the port mapping for the IPMC. Table 3-9 IPMC Port Mapping Port Signal Description P0.0 SPI_CLK SPI clock. P0.1 C8051_MISO SPI Data (Master In — Slave Out). P0.2 C8051_MOSI SPI Data (Master Out — Slave In). P0.3 IPMB_SDA I2C add for IPMB. P0.4 IPMB_SCL I2C clock for IPMB.
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Table 3-9 IPMC Port Mapping Port Signal Description P3.1 *C8051_STATUS IPMI status signal: 0 = Code is loaded and control is operational. 1 = Code is not loaded. boot failure. P3.2 *IPMI_ERR IPMI related error, where: 0 = IPMI error is detected. 1 = No error found.
3.3 RJ-45 Connectors As shown in Figure 2‐6, the front panel Serial Console, Ethernet Management, and RTM face plates provide standard 8‐pin RJ‐45 connectors for Ethernet access. Figure 3‐1 shows an RJ‐45 connector, and Table 3‐10 describes the pin assignments with MDI signals. Figure 3-1 Standard RJ-45 Connector Table 3-10 RJ-45 Pin Assignment Signal Description Signal Description Number Number MDI_DA+ Data Access — Pair A MCI_DC— Data Access — Pair C MDI_DA— Data Access — Pair A MDI_DB—...
4 • Temperature and Power The CP921RC‐30X contains two temperature sensors. The CP921RC‐30X uses a combination of linear voltage regulators and DC‐DC converters to meet the power needs. 4.1 Temperature Sensors Two temperature sensors are provided to monitor the inlet and outlet temperature of the CP921RC‐30X. The Processor on the Management Board can obtain the board temperature from the IPMC through UART0. Figure 4‐1 shows the approximate location of the temperature sensors (in red) on the CP921RC‐30X. Figure 4-1 Location of Temperature Sensors Temperature Sensors 49 Artisan Technology Group - Quality Instrumentation ... Guaranteed | (888) 88-SOURCE | www.artisantg.com...
4.2 Power Distribution The CP921RC‐30X assembly draws all required load current from a combination of linear voltage regulator sand DC‐DC converters. The CP921RC‐30X generates the following: • +2.5V • +1.8V • +1.25V • +1.2V • +1V Table 4‐1 shows the maximum current rating per power rails for all models. Table 4-1 Power Consumption Voltage (V) Current Maximum (Amps) Power/Rail (Watts) 2.62 8.63 1.28 3.20 5.465 9.84 1.25 13.81 17.26 4.3 IPMC and ADC0 Input The IPMC uses the ADC0 input (AIN0.0‐AIN0.7) to monitor all supply voltages ...
5 • Hardware Specifications and Certifications Specification for the CP921RC‐30x are listed in Table 5‐1. Table 5-1 CP921RC-30X Specification Description CP921RC-300 CP921RC-300-IND CP921RC-301 Form Factor cPCI, 6U Single slot cPCI, 6U Single slot cPCI, 6U Single slot Bus Type 32-bIt PCI @ 66MHz, IPMB 32-bIt PCI @ 66MHz, IPMB 32-bIt PCI @ 66MHz, IPMB 24-ports 24-ports...
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Changes or modifications not expressly approved by GE Intelligent Platform, Inc. could void the user’s FCC granted authority to operate this equipment .
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5.2 Optical/Laser Devices Notices This product may or may not be provided with an optical device and/or fiber optic transceivers. Each optical/laser devices contains a laser that is classified as Class 1 Laser Product in accordance with US FDA regulations and IEC 60825‐1. WARNING For this product, use only the Class 1 laser device that have the following approval: – FDA 21 CFR 1040.10 – IEC 60825-1 Use of controls or adjustments or performance of procedures other than those specified herein or in the laser product’s installation guide may result in hazardous radiation exposure.
Glossary The following terms and acronyms are found in this manual. A unit of measurement of the height of a rack mount device equal to approximately 1.75 inches. A 3U board is 5.25 inches in height. Bit Banging A software technique that emulates a serial interface standard (I C, SPI, and so forth) by rapidly changing a single output bit, in software, at the appropriate time. Baseboard Management Controller. cPCI Compact PCI system is a 3U (or 6U) Eurocard‐based industrial computer, where all boards are connected via a passive PCI backplane. Originally designed to support the PCI signaling protocol (hence the name ʹCompactPCIʹ), CompactPCI has grown to include a variety of technologies on a 3U and 6U form factor. Error Correction Code. EEPROM Electrically Erasable Programmable Read‐Only Memory. Electro‐Static Discharge. F-Link An ʺFʺ (fully associated) link connects two signaling end points (for example, SSPs and SCPs). ʺFʺ links are not usually used in networks with STPs. In networks without STPs, ʺFʺ links directly connect signaling points Gigabit Ethernet. Ground. Internet Protocol. IPMC Intelligent Platform Management Controller. IPMI Intelligent Platform Management Interface. Layer 2 Layer 2 refers to the Data Link layer of the Open Systems Interconnection (OSI) communications model. The Data Link layer is concerned with moving data across the physical links in the network. Layer 3 Layer 3 refers to the Network layer of the Open Systems Interconnection (OSI) communications model. The Network layer is concerned with knowing the address of the neighboring nodes in the network, selecting routes and quality of service, and forwarding as appropriate. ...
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Additional Resources Systems, Inc. All rights reserved. Information Centers For more information, please visit An asterisk (*) indicates a trademark of GE Intelligent Platforms, Inc. and/or its affiliates. the GE Intelligent Platforms Embedded Americas: All other trademarks are the property of their...
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Artisan Technology Group is your source for quality new and certified-used/pre-owned equipment SERVICE CENTER REPAIRS WE BUY USED EQUIPMENT • FAST SHIPPING AND DELIVERY Experienced engineers and technicians on staff Sell your excess, underutilized, and idle used equipment at our full-service, in-house repair center We also offer credit for buy-backs and trade-ins •...