K-WANG
The Emerson Network Power MVME5500 series is designed to meet the needs of OEMs including those in defense and aerospace, industrial automation and medical imaging market segments. Customers looking for a technology refresh for their application while maintaining backward compatibility with their existing VMEbus infrastructure can upgrade to the MVME5500 series and take advantage of the enhanced performance features.
Motorola-MVME5500-VMEbus Single-Board Computer
The MVME5500 utilizes the MPC7457 processor running at 1 GHz, which is ideal for data intensive applications. The MVME5500 provides more than just better processor performance; it also provides balanced performance from the processor, memory, dual independent local buses and I/O subsystems. The powerful Marvell system controller, with support for a 133 MHz host bus and a 133 MHz SDRAM memory bus, is well matched to the high speed processor. To match the system I/O to the outstanding processor performance, the MVME5500 provides dual 64-bit, 33/66 MHz PCI buses. Each PCI bus has a PMC site supporting cards running at 33 or 66 MHz. The Universe II VME interface and PMCspan connector are isolated from the PMC sites on a dedicated 33 MHz PCI bus segment so that both PMC sites are capable of 66 MHz operation. The MVME5500 also offers a Gigabit Ethernet interface, a 10/100BaseTX Ethernet interface and two serial ports. All of this adds up to a set of well-balanced, high-performance subsystems for unparalleled performance.
The MVME5500 continues the direction that Emerson started with the MVME5100 series of providing a migration path from Emerson’s embedded controllers and single-board computers (SBCs) to a single platform. This migration path enables OEMs to support varying I/O requirements with the same base platform, simplifying part number maintenance, technical expertise requirements and sparing. The MVME5500 series offers customers a migration path from the MVME2300. MVME2400. MVME2600. MVME2700 and MVME5100 boards to allow them to take advantage of features such as the MPC7455 processor, Gigabit Ethernet and dual independent 33/66 MHz PMC sites. IPMC Modules The IPMC761 and IPMC712 are optional add-on PMC modules that provide backward compatibility with previous generation Emerson products (such as MVME2600. MVME2700 and MVME5100 in IPMC mode) using the MVME761 or MVME712M transition module. IPMC modules provide rear I/O support for the following
P2 I/O Modes The MVME5500 series supports two, jumper-configurable P2 I/O modes: PMC mode and IPMC mode. PMC mode is backward compatible with the MVME2300/ MVME2400 and MVME5100 in PMC mode. In PMC mode, 64 pins from PMC slot 1 and 46 pins from PMC slot 2 are available on P2 for PMC rear I/O. In IPMC mode, the MVME5500 series supports legacy MVME761 or MVME712M I/O modules (with limited PMC I/O) when an IPMC761 or IPMC712 PMC card is populated in PMC slot 1. In this configuration, PMC slot 2 contains some signals that are reserved for extended SCSI.
Transition Modules The MVME761 transition module provides industrystandard connector access to the IEEE 1284 parallel port, a 10BaseT or 100BaseT port via an RJ-45 connector, two DB-9 connectors providing access to the asynchronous serial ports configured as EIA-574 DTE and two HD-26 connectors providing access to the sync/async serial ports. These serial ports, labeled as Serial 3 and Serial 4 on the faceplate of the MVME761. are individually user-configurable as EIA-232. DCE or DTE via the installation of Emerson Serial Interface Modules (SIMs). A P2 adapter board provides interface signals to the MVME761 transition module. Two separate P2 adapter boards are available: one for 3-row backplanes and one for 5-row backplanes. The 3-row P2 adapter board provides connection for 8-bit SCSI. A 5-row P2 adapter board supports 16-bit SCSI and PMC I/O. The MVME712M transition module provides industry-standard connector access to the Centronics parallel port, a narrow SCSI port, and four DB-25 connectors providing access to the asynchronous/ synchronous serial ports jumper configurable as EIA-232 DCE or DTE. A P2 adapter board provides interface signals to the MVME712M transition module. The 3-row P2 adapter board also provides connection for 8-bit SCSI. To gain access to the additional user-definable I/O pins provided via the 5-row VME64 extension connector, a special P2 adapter board is available. This adapter panel replaces the traditional 3-row P2 adapter board and extends its capability by providing access to the PMC I/O pins. Software Support Firmware Monitor Firmware must fulfill the traditional functions of power-on self-test (POST), initialization, low-level setup and debug, and operating system booting. Emerson’s innovative firmware (known as MOTLoad) that is resident on the MVME5500 exceeds these requirements with expanded features such as interrupt driven I/O, more comprehensive power-up tests and extensive diagnostics with new scripting capability. And of course, MOTLoad provides a debugger interface similar to the time proven “bug” interface on previous VMEbus boards from Emerson. Operating Systems and Kernels WindRiver Systems VxWorks, TimeSys Linux, Green Hills Software INTEGRITY and LynuxWorks LynxOS are available for the MVME5500.
VMEbus Interface: ANSI/VITA 1-1994 VME64 (IEEE STD 1014) Controller: Tundra Universe II DTB Master: A16-A32; D08-D64. SCT, BLT DTB Slave: A24-A32; D08-D64. BLT, UAT Arbiter: RR/PRI Interrupt Handler/Generator: IRQ 1-7/Any one of seven IRQs System Controller: Yes, jumperable or auto detect Location Monitor: Two, LMA32 Ethernet Interfaces Port 1 Controller: Intel® 82544EI Gigabit Ethernet controller Interface Speed: 10/100/1000Mbps Connector: Routed to front panel RJ-45 Port 2 Controller: Controller integrated into GT-64260B system controller Interface Speed: 10/100Mbps Connector: Routed to front panel RJ-45 or optionally routed to P2. RJ-45 on MVME761 Asynchronous Serial Ports Controller: Two TL16C550C UARTs Number of Ports: Two, 16550 compatible Async Baud Rate, bps max.: 38.4K EIA-232. 115Kbps raw Connector: Routed to front panel RJ-45; one on planar for development use Dual IEEE P1386.1 PCI Mezzanine Card Slots Address/Data: A32/D32/D64. PMC PN1. PN2. PN3. PN4 connectors PCI Bus Clock: 33/66 MHz Signaling: 3.3V or 5V, configurable with keying pin Power: +3.3V, +5V, ±12V Module Types: Two single-wide or one doublewide, front panel or P2 I/O, PMC and PrPMC support Note: If a PMC module is plugged in PMC slot 1. the memory mezzanine card cannot be used because the PMC module covers the memory mezzanine connector. ° ° ° ° ° ° ° ° Å Å Å ° Å Å Å ° ° ° ° ° ° ° ° ° ° PCI Expansion Connector Address/Data: A32/D32/D64 PCI Bus Clock: 33 MHz Signaling: 5V Power: +3.3V, +5V, ±12V Connector: 114-pin connector located on MVME5500 planar, same location as on MVME5100 planar Power Requirements +5V ± 5% MVME5500-0163: 6.7 A typ., 8.0 A max. MVME5500-0163 with memory mezzanine: 7.5 A typ., 9.0 A max. MVME5500-0163 with IPMC712/761: 7.6 A typ., 9.2 A max. Note: In a 3-row chassis, PMC current should be limited to 19.8 watts (total of both PMC slots). In a 5-row chassis, PMC current should be limited to 46.2 watts (total of both PMC slots). Board Size Height: 233.4 mm (9.2 in.) Depth: 160.0 mm (6.3 in.) Front Panel Height: 261.8 mm (10.3 in.) Width: 19.8 mm (0.8 in.) Max. Component Height: 14.8 mm (0.58 in.) IPMC Modules PMC Interface Address/Data: A32/D32/D64. PMC PN1. PN2. PN3. PN4 connectors PCI Bus Clock: 33 MHz Signaling: 5V Module Type: Basic single-wide; P2 I/O SCSI Bus Controller: Symbios 53C895A PCI Local Bus DMA: Yes, with PCI local bus burst Asynchronous (8-bit mode): 5.0MB/s Ultra SCSI: 20.0MB/s (8-bit mode), 40.0MB/s (16-bit mode) Note: 16-bit SCSI operation precludes the use of some PMC slot 2 sig
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