Emerson MVME2500 - Manuals

List of Figures MVME2500 Installation and Use (6806800L01H) 11 Figure 1-1 Serial Number Location . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24 Figure 3-1 Component Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

MVME2500 Installation and Use (6806800L01H) 13 About this Manual Overview of Contents This manual is divided into the following chapters and appendices.  Introduction gives an overview of the features of the product, standard compliances, mechanical data, and ordering information.  Hardware Prepar...

About this Manual MVME2500 Installation and Use (6806800L01H) 15 Conventions The following table describes the conventions used throughout this manual. USB Universal Serial Bus VITA VMEbus International Trade Association VME Versa Module Eurocard XMC PCI Express Mezzanine Card Term Definition Notati...

About this Manual MVME2500 Installation and Use (6806800L01H) 17 Summary of Changes This manual has been revised and replaces all prior editions. Part Number Publication Date Description 6806800L01A June 2010 First edition 6806800L01B October 2010  This version includes updates and revisions for th...

Chapter 1 MVME2500 Installation and Use (6806800L01H) 19 Introduction 1.1 Overview The MVME2500 is a VMEbus board based on the Freescale QorlQ P2010 (single-core) or P2020 (dual-core) processor. It has a 6U form-factor and has an expansion slot for an optional PCI Mezzanine Card (PMC) or PCI eXpress...

Introduction MVME2500 Installation and Use (6806800L01H) 21 1.2 Standard Compliances The product is designed to meet the following standards. Results are pending until testing is finished. For Declaration of Conformity, refer MVME2500 Series Declaration of Conformity . Operating System  Based from ...

Introduction MVME2500 Installation and Use (6806800L01H ) 22 1.3 Mechanical Data The following table provides details about the dimensions and weight of the board. 1.4 Ordering Information As of the printing date of this manual, this guide supports the models listed below. Table 1-3 Mechanical Data ...

Introduction MVME2500 Installation and Use (6806800L01H ) 24 1.5 Product Identification The following graphics shows the location of the serial number label. Figure 1-1 Serial Number Location

Chapter 2 MVME2500 Installation and Use (6806800L01H) 25 Hardware Preparation and Installation 2.1 Overview This chapter provides installation and safety instructions for this product. Installation instructions for the optional PMC and transition module are also included. A fully implemented MVME250...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H ) 26 2.2 Unpacking and Inspecting the Board Read all notices and cautions prior to unpacking the product. Shipment Inspection 1. Verify that you have received all items of your shipment. 2. Check for damage and report a...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H) 27 2.3.1 Environmental Requirements Operating temperatures refer to the temperature of the air circulating around the board and not to the component temperature. Table 2-1 Environmental Requirements Characteristics Com...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H ) 28 2.3.2 Power Requirements The board uses +5.0 V from the VMEbus backplane. On board power supply generates the required voltages for the various ICs. The MVME2500 connects the +12 V and -12 V supplies from the backp...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H) 29 The following table shows the power available when the MVME2500 is installed in either a three row or five row chassis and when PMCs are present. 2.3.3 Equipment Requirements The following are recommended to complet...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H ) 30 2.5 Installing Accessories 2.5.1 Rear Transition Module The MVME2500 does not support hot swap. Remove power to the rear slot or system before installing the module. A PCMI/O Module (PIM) needs to be manually confi...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H) 31 4. Install the top and bottom edge of the transition module into the rear guides of the chassis. 5. Ensure that the levers of the two injector/ejectors are in the outward position. 6. Slide the transition module int...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H ) 32 1. Attach an ESD strap to your wrist. Attach the other end of the strap to the chassis as a ground. Make sure that it is securely fastened throughout the procedure. 2. Remove the PMC/XMC filler plate from the front...

Hardware Preparation and Installation MVME2500 Installation and Use (6806800L01H ) 34 2.7 Completing the Installation The board is designed to operate as an application-specific computer blade or an intelligent I/O board/carrier. It can be used in any slot in a VME chassis. Once the board is install...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H ) 36 3.2 Front Panel The following components are found on the MVME2500 front panel. Figure 3-2 Front Panel LEDs, Connectors and Switches

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H) 37 3.2.1 Reset Switch The MVME2500 has a single push button switch that has both the abort and reset functions. Pressing the switch for less than three seconds generates an abort interrupt to the P20x0 QorIQ PIC. Holding it d...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H) 39 3.3.2 Onboard LEDs The onboard LEDs are listed below. To view its location on the board, see Figure 3-1 on page 35 . 3.4 Connectors This section describes the pin assignments and signals for the connectors on the MVME2500....

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H ) 40 3.4.1 Front Panel Connectors The following connectors are found on the outside of the MVME2500. These connectors are divided between the front panel connectors and the backplane connectors. The front panel connectors incl...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H ) 42 3.4.1.3 USB Connector (J5) The MVME2500 uses upright USB receptable mounted in the front panel. 3.4.1.4 VMEBus P1 Connector The VME P1 connector is a 160-pin DIN. The P1 connector provides power and VME signals for 24-bit...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H ) 44 3.4.1.5 VMEBus P2 Connector The VME P2 connector is a 160-pin DIN. Row B of the P2 connector provides power to the MVME2500 and to the upper eight VMEbus address lines and additional 16 VMEbus data lines. The Z, A, C, and...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H) 45 3.4.2 Onboard Connectors 3.4.2.1 Flash Program Connector (P7) The Flash Program Connector is depopulated in the production version of the MVME2500. However, each pin is exposed for the 60-pin header connector for the JTAG ...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H) 47 3.4.2.3 PMC Connectors The MVME2500 supports only one PMC site. It utilizes J14 to support PMC I/O that goes to the RTM PMC. The tables below show the pinout detail of J11, J12, J13 and J14. See Figure 3-1 for the location...

Controls, LEDs, and Connectors MVME2500 Installation and Use (6806800L01H ) 56 3.4.2.8 Miscellaneous P2020 Debug Connectors 9 NC NC NC NC NC +3.3V 10 GND GND JTAG TDO GND GND GA 0 11 TX0 TX0 - BIST (PULLED UP) TX1 + TX1 - +3.3V 12 GND GND GA 1 GND GND PRESENT 13 NC NC NC NC NC +3.3V 14 GND GND GA 2 ...

Chapter 4 MVME2500 Installation and Use (6806800L01H) 61 Functional Description 4.1 Block Diagram The MVME2500 block diagram is illustrated in Figure 4-1 . All variants provide front panel access to one serial port via a micro-mini DB-9 connector, two 10/100/1000 Ethernet port (one is configurable t...

Functional Description MVME2500 Installation and Use (6806800L01H ) 62 This section describes the protocol and interfaces provided in the QorIQ P20x0 integrated and is utilized by the MVME2500. 4.2.1 e500 Processor Core The QorIQ integrated processors offer dual high performance e500v2 core (P2020) ...

Functional Description MVME2500 Installation and Use (6806800L01H) 63  Automatic DRAM initialization sequence or software-controlled initialization sequence and automatic DRAM data initialization.  Write leveling for DDR3 memories and supports up to eight posted refreshes. 4.2.3 PCI Express Interf...

Functional Description MVME2500 Installation and Use (6806800L01H ) 64 4.2.8 DUART The chipset provides two universal asynchronous receiver/transmitter (UART), each of which acts independently of the other. Each UART is clocked by the CCB clock and is compatible with PC16522D. As a full-duplex inter...

Functional Description MVME2500 Installation and Use (6806800L01H) 65 4.2.13 Common On-Chip Processor (COP) The COP is the debug interface of the QorIQ P20x0 Processor. It allows a remote computer system to access and control the internal operation of the processor. The COP interface connects primar...

Functional Description MVME2500 Installation and Use (6806800L01H ) 66 See Real-Time Clock Battery, on page 77 for more information on the real time clock back-up battery. 4.4.2 Internal Timer The processor's internal timer is composed of eight global timers divided into two groups of four timers ea...

Functional Description MVME2500 Installation and Use (6806800L01H) 67 4.6 SPI Bus Interface The enhanced serial peripheral interface (eSPI) allows the device to exchange data with peripheral devices such as EEPROMs, RTC, Flash and the like. The eSPI is a full-duplex synchronous, character-oriented c...

Functional Description MVME2500 Installation and Use (6806800L01H ) 68  Factory Pre-Programming - Programming the SPI Flash usually takes a while. Ideally, the SPI Flash should be pre-programmed in the factory before shipment.  ICT Programming - This programming is done on exposed test points usin...

Functional Description MVME2500 Installation and Use (6806800L01H ) 70 The MVME2500 supports automatic switch over. If booting one device is not successful, the watchdog will trigger the board reset and it will automatically boot on the other device. 4.6.4 Crisis Recovery The MVME2500 provides an in...

Functional Description MVME2500 Installation and Use (6806800L01H) 71 Only 115200 bps and 9600 bps are supported. The default baud rate on the front panel serial is 9600 kbps. 4.8 Rear UART Control The MVME2500 utilizes the Exar ST16C554 quad UART (QUART) to provide four additional ports to the RTM....

Functional Description MVME2500 Installation and Use (6806800L01H) 73 The MVME2500 uses Marvell's 88SE6121B2-NAA2C000 SATA controller and supports up to 1.5 Gbps (SATA Gen 1). For status indicators, it has an onboard green LED, D12 and D13 for SATA link and SATA activity status respectively. 4.11 VM...

Functional Description MVME2500 Installation and Use (6806800L01H ) 74 The RTM I2C address can be configured by the user and should not contain duplicate addresses to avoid conflict. For more information, see I2C Bus Device Addressing, on page 118 . 4.14 Reset/Control FPGA The FPGA provides the foll...

Functional Description MVME2500 Installation and Use (6806800L01H) 77 4.17.1 Reset Sequence The timing of the reset sequence supports each chip reset requirements with respect to the power supply. 4.18 Thermal Management The MVME2500 utilizes two on-board temperature sensors: one for the board and t...

Functional Description MVME2500 Installation and Use (6806800L01H ) 78 4.20 Debugging Support The following information shows the details of Emerson debugging support as applied to the MVME2500. 4.20.1 POST Code Indicator The following table shows the LED status of the POST Codes. For the location o...

Chapter 5 MVME2500 Installation and Use (6806800L01H) 81 Memory Maps and Registers 5.1 Overview System resources including system control and status registers, external timers, and the QUART are mapped into 16 MB address range accessible from the MVME2500 local bus through the P20x0 QorIQ LBC. 5.2 M...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 82 5.3 Flash Memory Map The table below lists the memory range designated to U-boot and ENV variables. 5.4 Linux Devices Memory Map The table below lists the memory ranges designated to different devices in Linux. Table 5-2 Flash...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 84 5.5 Programmable Logic Device (PLD) Registers 5.5.1 PLD Revision Register The MVME2500 provides a PLD revision register that can be read by the system software to determine the current version of the timers/registers PLD. 5.5....

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 85 5.5.3 PLD Month Register The MVME2500 PLD provides an 8-bit register which contains the build month of the timers/registers PLD. 5.5.4 PLD Day Register MVME2500 PLD provides an 8-bit register which contains the build day of the...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 86 5.5.6 PLD Power Good Monitor Register The MVME2500 PLD provides an 8-bit register which indicates the instantaneous status of the supply’s power good signals. Bit 7 6 5 4 3 2 1 0 Field PLD Rev OPER R RESET 02 Table 5-8 PLD Seq...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 87 5.5.7 PLD LED Control Register The MVME2500 PLD provides an 8-bit register which controls the eight LEDs. 1 - LED on 0 - LED off For more information on LEDs, refer to Table "Front Panel LEDs" on page 38 and Table "...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 89 5.5.9 PLD U-Boot and TSI Monitor Register The MVME2500 PLD provides an 8-bit register which indicates the status of the U-Boot's normal environment switch and TSI interface signals. 5.5.10 PLD Boot Bank Register The MVME2500 PL...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 91 5.5.11 PLD Write Protect and I2C Debug Register The MVME2500 PLD provides an 8-bit register which is used to indicate the status of I2C and SPI write-protect manual switches and is used to control the SPI write-enable. I2C debu...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 95 5.5.15 PLD Shutdown and Reset Control and Reset Reason Register The MVME2500 provides an 8-bit register to execute the shutdown and reset commands. The board's reset reason is also included in this register. Table 5-18 PLD Shut...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 96 5.5.16 PLD Watchdog Timer Refresh Register The MVME2500 provides a watchdog timer refresh register. CPU_RESET CPU_HRESET_REQ_L Reset Reason1 - Reset is due to CPU_HRESET_REQ_L signal0 -None WD_TIMEOUT Watchdog Timeout Reset Re...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 98 5.6 External Timer Registers The MVME2500 provides a set of tick timer registers to access the three external timers implemented in the timers/registers PLD. These registers are 32-bit and are word writable. The following sect...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 99 5.6.2 Control Registers Table 5-23 Control Registers REG Tick Timer 0 Control Register - 0xFFC80202Tick Timer 1 Control Register - 0xFFC80302Tick Timer 2 Control Register - 0xFFC80402 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 F...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H ) 100 5.6.3 Compare High and Low Word Registers The tick timer counter is compared to the Compare Register. When the values are equal, the tick timer interrupt is asserted and the overflow counter increments. If the clear-on-compar...

Memory Maps and Registers MVME2500 Installation and Use (6806800L01H) 101 5.6.4 Counter High and Low Word Registers When enabled, the tick timer counter register increments every microsecond. Software may read or write the counter at any time. Table 5-26 Counter High Word Registers REG Tick Timer 0 ...

Chapter 6 MVME2500 Installation and Use (6806800L01H) 103 Boot System 6.1 Overview The MVME2500 uses Das U-Boot, a boot loader software based on the GNU Public License. It boots the blade and is the first software to be executed after the system is powered on. Its main functions are:  Initialize th...

Boot System MVME2500 Installation and Use (6806800L01H ) 104 U-Boot aborts the boot sequence and enters into a command line interface mode. 6.3 Boot Options 6.3.1 Booting from a Network In this mode, U-Boot downloads and boots the Linux kernel from an external TFTP server and mounts a root file syst...

Boot System MVME2500 Installation and Use (6806800L01H) 105 6.3.2 Booting from an Optional SATA Drive 1. Make sure that the kernel, dtb, and ramdisk are saved in the SATA drive with ext2 partition. 2. Configure U-Boot environment variable: setenv File_uImage <kernel_image> setenv File_dtp <...

Boot System MVME2500 Installation and Use (6806800L01H ) 106 6.3.4 Booting from an SD Card 1. Make sure that the kernel, dtb , and ramdisk are saved in the SD card with FAT partition. 2. Configure the U-Boot environment variable: setenv File_uImage <kernel_image> setenv File_dtp <kernel dtb...

Boot System MVME2500 Installation and Use (6806800L01H) 107 3. TFTP the files from the server to local memory, then boot: run vxboot 6.4 Using the Persistent Memory Feature Persistent memory means that the RAM's memory is not deleted during a reset. Power cycling, or by temporarily removing the powe...

Boot System MVME2500 Installation and Use (6806800L01H ) 108 6.5 MVME2500 Specific U-Boot Commands Table 6-1 MVME2500 Specific U-Boot Commands Command Description base Print or set address offset bdinfo Print board info structure boot Boot default, i.e., run 'bootcmd' bootd Boot default, i.e., run '...

Chapter 7 MVME2500 Installation and Use (6806800L01H) 113 Programming Model 7.1 Overview This chapter includes additional programming information for the MVME2500. 7.2 Reset Configuration The MVME2500 supports the power-on reset (POR) pin sampling method for processor reset configuration. Each optio...

Programming Model MVME2500 Installation and Use (6806800L01H) 117 7.3 Interrupt Controller The MVME2500 uses the MPC8548E integrated programmable interrupt controller (PIC) to manage locally generated interrupts. Currently defined external interrupting devices and interrupt assignments, along with c...

Programming Model MVME2500 Installation and Use (6806800L01H ) 118 7.4 I2C Bus Device Addressing The following table contains the I2C devices used for the MVME2500 and its assigned device address. 1. This is a dual address serial EEPROM. 2. The RTM Bus address can be manually changed through the S1 ...

Programming Model MVME2500 Installation and Use (6806800L01H) 119 7.6 Other Software Considerations This section provides programming information in relation to various board components. 7.6.1 MRAM The MVME2500 provides 512 K bytes of fast, non-volatile storage in the form of Magnetoresistive Random...

Programming Model MVME2500 Installation and Use (6806800L01H ) 120 7.6.4 LBC Timing Parameters The following table defines the timing parameters for the devices on the local bus. Table 7-5 LBC Timing Parameters 0 1 2 3 4 5 6 MRAM UART 0 UART 1 UART 2 UART 3 FPGA Timers BCTLD 0 0 0 0 0 0 0 CSNT 1 1 1...

Programming Model MVME2500 Installation and Use (6806800L01H) 121 7.7 Clock Distribution The clock function generates and distributes all of the clocks required for system operation. The ICS9FG108 is used to generate all the required PCI-E clocks. The 25 MHz clocks for the Ethernet PHY and SATA brid...

Programming Model MVME2500 Installation and Use (6806800L01H ) 122 7.7.1 System Clock The system and DDR clock is driven by ICS840S07I. The following table defines the clock frequency. BCM54616S SW_25MHZ_CLK 25Mhz ICS83905AGILF +3.3V XMC CLK_XMC1 100MHz ICS9FG108 DIFF QorIQ P20x0 SD_REF_CLK 100MHz I...

Programming Model MVME2500 Installation and Use (6806800L01H) 123 7.7.2 Real Time Clock Input The RTC clock input is driven by a 1 MHz clock generated by the FPGA. This provides a fixed clock reference for the QorIQ P20x0 PIC timers which the software can use as a known time reference. 7.7.3 Local B...

Appendix A MVME2500 Installation and Use (6806800L01H) 125 A Replacing the Battery A.1 Replacing the Battery The figure below shows the location of the board battery. Figure A-1 Battery Location

Appendix B MVME2500 Installation and Use (6806800L01H) 129 B Related Documentation B.1 Emerson Network Power - Embedded Computing Documents The publications listed below are referenced in this manual. You can obtain electronic copies of Emerson Network Power - Embedded Computing publications by cont...

Related Documentation MVME2500 Installation and Use (6806800L01H ) 130 B.2 Manufacturers’ Documents For additional information, refer to the following table for manufacturers’ data sheets or user manuals. As an additional help, a source for the listed document is provided. Please note that while the...

MVME2500 Installation and Use (6806800L01H) 133 Safety Notes This section provides warnings that precede potentially dangerous procedures throughout this manual. Instructions contained in the warnings must be followed during all phases of operation, service, and repair of this equipment. You should ...

MVME2500 Installation and Use (6806800L01H) Safety Notes 134 Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Changes or modifications not expressly approved by Emerson Ne...

Safety Notes MVME2500 Installation and Use (6806800L01H) 135 Make sure all software is completely shut down before removing power from the board or removing the board from the chassis. Product Damage Only use injector handles for board insertion to avoid damage to the front panel and/or PCB. Deforma...

MVME2500 Installation and Use (6806800L01H) Safety Notes 136 Battery Board/System Damage Incorrect exchange of lithium batteries can result in a hazardous explosion.When exchanging the on-board lithium battery, make sure that the new and the oldbattery are exactly the same battery models.If the resp...

MVME2500 Installation and Use (6806800L01H) 137 Sicherheitshinweise Dieses Kapitel enthält Hinweise, die potentiell gefährlichen Prozeduren innerhalb dieses Handbuchs vorrangestellt sind. Beachten Sie unbedingt in allen Phasen des Betriebs, der Wartung und der Reparatur des Systems die Anweisungen, ...

MVME2500 Installation and Use (6806800L01H) Sicherheitshinweise 138 EMV Das Produkt wurde in einem Emerson Standardsystem 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 Grenzwe...

Sicherheitshinweise MVME2500 Installation and Use (6806800L01H) 139 Beschädigung von SchaltkreisenElektrostatische Entladung und unsachgemäßer Ein- und Ausbau des Produktes kann Schaltkreise beschädigen oder ihre Lebensdauer verkürzen. Bevor Sie das Produkt oder elektronische Komponenten berühren, v...

MVME2500 Installation and Use (6806800L01H) Sicherheitshinweise 140 Kabel und Stecker Beschädigung des ProduktesBei den RJ-45-Steckern, die sich an dem Produkt befinden, handelt es sich entweder um Twisted-Pair-Ethernet (TPE) oder um E1/T1/J1-Stecker. Beachten Sie, dass ein versehentliches Anschließ...

Sicherheitshinweise MVME2500 Installation and Use (6806800L01H) 141 Datenverlust Wenn die Batterie wenig oder unzureichend mit Spannung versorgt wird, wird der RTC initialisiert.Tauschen Sie die Batterie aus, bevor sieben Jahre tatsächlicher Nutzung vergangen sind. Schäden an der Platine oder dem Ba...

MVME2500 Installation and Use (6806800L01H) 143 A abbreviations 13 accessories 30 B block diagram 61 board accessories 23 board configuration 29 C chipset 61 conventions 15 D disposal 26 disposal of product 21 E environmental requirements 27 I installating and removing the board 32 installation 31 M...