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GE VMIC VMIVME-7695 Single-Slot Pentium II Embedded Module

– Pentium® II Processor-Based Single Board Computers (SBCs)

– Special features for embedded applications include

– M-Systems Flash DiskOnChip® (optional)

– 16 Mbyte IDE Flash drive

– Three programmable 16-bit timers

– 32 Kbyte battery-backed SRAM

– Software-selectable watchdog timer with reset

– Supports Ethernet remote startup

– Supports VMEbus P2 connection to hard disk/floppy drive

– PMC Expansion Interface with VMEbus P2 Inputs/Outputs

– Supports VME64 modes: A32/A24/D32/D16/D08(EO)/MBLT64/BLT32

– VMEbus interrupt handler, interrupter and system controller

– Includes real-time end-to-end bit conversion hardware for www.ge-drive.com small-end and big-end data interfaces (Patent No. 6.032.212)

– Enhanced bus error handling

– Passive heat sink design (no moving parts)

– Standard features include

– Pentium II Embedded Module (333 MHz)

– Up to 512 Mbyte SDRAM using three 144-pin SODIMMs

– 64-bit S3 Trio 3D AGP SVGA controller with 4 Mbyte SGRAM

– Onboard Fast Ethernet controller supporting 10BaseT and 100BaseTX interfaces

– Onboard Ultra DMA/33 hard disk drive and floppy drive controller with VMEbus P2 input/output interface

– Two high-performance 16550-compatible serial ports (Requires VMIACC-0045 or separate connector adapter.)

– Enhanced parallel port supporting ECP/EPP mode (Requires VMIACC-0045 or separate connector adapter.)

– Front panel PS/2 keyboard and mouse ports

– Built-in real-time clock and micro-speaker

– Dual USB ports

– Supported Operating Systems

– Windows NT®/Windows® 2000

– VxWorks

– VxWorks

– Solaris

– QNX Solaris

– LynxOS

Applications

– Analog

– Instrumentation

– Industrial Controls

– Process Control and Monitoring

– Factory Automation

– Intelligent Networking PLC Controllers

– Automated Testing

– Data Acquisition

Microprocessor – The VMIVME-7695 brings the Intel® Pentium II processor with MMX™ to the VME bus, providing a processor speed of 333 MHz.

The Pentium II processor has 32-bit addressing and a 64-bit data bus. Its superscalar architecture allows three instructions per clock cycle.

Dynamic branch prediction units, separate instruction and data caches, and MMX technology also enhance the performance of the Pentium II processor.

The Pentium II processor also features a dual independent bus architecture providing 512 Kbytes of internal L2 cache for high bandwidth and performance.

Memory – The VMIVME-7695 offers up to 512 Mbytes of system memory options with up to three SODIMMs installed.

The on-board DRAM is dual-ported to the VME bus.

DiskOnChip – The VMIVME-7695 offers the option of accessing 72. 144. or 288 Mbytes of memory via M-Systems’ DiskOnChip.

This memory can be used as boot flash or as an additional standard drive installed by the BIOS. No additional software is required.

The DiskOnChip can be used as the only drive in the system or as a second drive, e.g. with the VMIVME-7455 CD-ROM drive.

Ethernet Controller – The VMIVME-7695 supports Ethernet LANs through the Intel 21143 Ethernet Controller.

10BaseT and 100BaseTX transmission is supported and the interface can be accessed through the RJ45 connector on the front panel.The VMIVME-7695 includes a Lanworks Technologies, Inc.

The VMIVME-7695 includes Lanworks Technologies, Inc.’s Remote Boot BIOS, which allows users to remotely boot a variety of operating systems using the Ethernet interface.Lanworks Technologies, Inc.’s BIOS provides the following features:

– Support for RPL, TCP/IP BootP, TCP/IP DACP, NetWare 802.3. NetWare 802.2. and NetWare EthII protocols

– Unrivaled boot sector virus protection

– Detailed boot configuration screens

– Comprehensive diagnostic capabilities

– Option to disable local boot function

– Dual-boot option allows user to select network or local startup

GE Fanuc VME-7807RC VMEbus Single Board Computer

Function

– Intel® Pentium® M at 1.1 GHz, 1.4 GHz or 1.8 GHz

– Up to 2 Mbyte L2 cache

– Up to 1.5 Gbyte DDR SDRAM

– Up to 2 Gbyte bootable CompactFlash

– One PCI-X PMC expansion bit

– 400 MHz system bus

– Front 10/100 BaseTX Ethernet ports

– Front 10/100/1000 Base Tx Ethernet port (non-VITA 31.1 option)

– 2 Gigabit Ethernet ports, optional VITA 31.1

– 4 serial ports

– 4 USB2.0 ports

– SATA support

– Mouse, keyboard, and SVGA routing to front panel

– Supports Windows® XP, Windows 2000. VxWorks®, QNX, and Linux® operating systems

– RoHS compliant

High performance and VITA 31.1 compliant.

The VME-7807RC is a highly flexible single board computer (SBC) with an integrated Intel Pentium M processor,

Intel Pentium M processor, up to 1.5 Gbyte of DDR SDRAM and dual www.ge-drive.com Gigabit Ethernet, as well as PCI-X, 66 MHz PMC expansion slots.

Operating at up to 1.8 GHz, this SBC delivers high bandwidth and processing power, making it ideal for I/O intensive applications.

Utilizing Intel’s new highly integrated 6300ESB I/O controller hub.

The VME-7807RC offers four serial ports, four USB 2.0 ports, Serial ATA,

IDE and up to 2 Gbyte of optional Compactware up to 2 Gbyte of optional CompactFlash.

The SBC utilizes the Intel 855GME to provide SVGA and DVI-I graphics support.

Specification

Processor

– Intel Pentium M at 1.1 GHz, 1.4 GHz or 1.8 GHz

– Good thermal characteristics

– 2 Mbyte L2 cache (1.4 GHz and 1.8 GHz options) and 1 Mbyte (1.1 GHz option)

– 400 MHz system and memory bus

SDRAM

– Maximum memory configuration of 1.5 Gbyte DDR SDRAM with optional ECC support

Compact Flash

– CompactFlash up to 2 Gbyte accessible via auxiliary IDE port

– CompactFlash can be configured as a boot device via BIOS Boot Device Setup

BIOS

– The V7807RC system BIOS and video BIOS are provided by reprogrammable flash memory.

Ethernet

– Dual Gigabit Ethernet interfaces using the Intel 82546EB, with one port connected to the front panel and the second port connected to P2

– Both Gigabit Ethernet ports can be routed to the optional VITA 31.1-capable P0 interface.

– One 10/100 Mbit Ethernet port on the front panel using the Intel 82551ER

USB ports

– Four USB ports, two to the front panel and two to the P2

– Supported USB features include

– Asynchronous data transfer

– Asynchronous messaging

– Self-recognition and configuration of peripheral devices

– Dynamic (hot) connections

VMEbus Backplane Interface

– The Tundra Universe II supports VME64 mode:

a32/a24/d32/d08(eo)/mblt64/blt32

Serial Ports

– Four 16550-compatible serial ports

– One RJ45 on front panel

– Three connections to P2

– Ports have independent 16-byte FIFOs and support baud rates up to 115 Kbaud

– All ports are configurable as RS232/422

PMC Expansion Slot

– One 5V PMC expansion slot (IEEE 1386.1)

Programmable Timers

– Two 16-bit and two 32-bit timers

– Mapped to PCI memory space

– Fully software programmable to generate PCI bus interrupts

Watchdog timer

– Programmable intervals

– Interrupt and board reset triggers

Dimensions

– 6U (4HP) Single Slot Eurocard Form Factor

– Height 9.2 inches (233.4 mm)

– Depth 6.3 inches (160 mm)

– Thickness 0.8 inches (20.3 mm)

Power Requirements

– +5 VDC (+5/-2.5%), 4.0 A (typical), 5.4 A (maximum)

– +12 VDC (+/-5%), less than 1 mA

-12 VDC (+/-5%), less than 1 mA

Note: VME interface only allows lower voltages of -4.875

Note: PMC sites with power requirements are not included.

Dimensions

– 6U (4HP) Single Slot Eurocard Form Factor

– Height 9.2 inches (233.4 mm)

– Depth 6.3 inches (160 mm)

– Thickness 0.8 inches (20.3 mm)

Power Requirements

– +5 VDC (+5/-2.5%), 4.0 A (typical), 5.4 A (maximum)

– +12 VDC (+/-5%), less than 1 mA

-12 VDC (+/-5%), less than 1 mA

Note: VME interface only allows lower voltages of -4.875

Note: PMC sites with power requirements are not included.

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FOXBORO Compact FBM215 HART® Communication Output Interface Module

The compact FBM215 HART® Communications Output Interface Module provides eight output channels, each providing either a 4 to 20mA output signal or a digital HART signal superimposed on an analog output.

Features

The key features of the Compact FBM215 module are listed below:

 Eight isolated output channels, each providing one of the following outputs:

– Standard 4 to 20 mA analog output signals

– Digital HART Frequency Shift Keying (FSK)

Digital HART Frequency Shift Keying (FSK) signals are superimposed on the 4 to 20 mA analog output signals.

 FSK modem dedicated to each output channel for bi-directional digital communication with HART field devices

 Galvanic isolation of all output channels from each other and from ground and module logic

 Supports HART common commands required to interface field devices with the Foxboro Evo™ Control Core Service System.

Database

 Compact, ruggedized enclosure for Class G3 (harsh) environments

 Termination assembly (TA) for local or remote connection of field wiring to the compact FBM215.

OVERVIEW

The Compact HART Communication Output Interface Module (FBM215) contains eight channels of isolated output channels.

The Compact FBM215 supports any combination of standard 4 to 20 mA devices and HART devices, and is part of the Compact 200 Series I/O Subsystem, as described in the Compact 200 Series I/O Subsystem Overview.

The Compact FBM215 serves as a host for HART-communicating field devices, allowing the Foxboro Evo system to request and receive two digital telegrams per second from each field device.

The Telegram Pass-Through feature can be used to support HART generic, common, and device-specific commands, but does not support burst communication modes.

These commands are implemented through the Intelligent Field Device Configurator (IFDC – see Intelligent Field Device Configurator FoxCom for details) and the HART protocol.

The compact FBM215 provides an isolated power supply for each channel.

When connected to the appropriate TA, the Compact FBM215 provides the functionality previously provided by the 100 Series FBM I/O subsystem.

TAs support the functional HART devices of the 100 Series FBM37 when the FBM37 is used with the following devices

Compact Design

The compact FBM215 has a narrower design than the standard 200 series FBM.

It has a rugged acrylonitrile-butadiene-styrene (ABS) housing that provides physical protection for the circuitry.

Enclosures specifically designed for mounting the FBM www.ge-drive.com provide varying degrees of environmental protection up to the harsh environments specified in ISA Standard S71.04.

Visual Indicators

Light emitting diodes (LEDs) on the front of the module provide a visual indication of the module’s operational status and channel communication activity.

Easy Removal/Replacement

Modules are mounted on a Compact 200 Series base plate that can be mounted either on DIN rails or horizontally in a rack using a kit.

Includes signal connectors for redundant fieldbus, redundant independent DC power supply and termination cables.

Two screws on the FBM secure the module to the Compact 200 Series base plate.

Removing/replacing the module eliminates the need to remove field device termination cables, power supplies, or communication cables.

Termination Components

Field output signals are connected to the FBM subsystem via DIN rail mounted TAs.

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GE PCI-5565PIORC Ultrafast Fiber Optic Reflective Memory with Interrupts

OVERVIEW

The PMC-5565PIORC* is the PMC-based product in GE Intelligent Platforms’ Reflective Memory Real-Time Fiber Optic Network product family.

Two or more PMC-5565PIORCs, as well as other products in this family, can be integrated into a network using standard fiber optic cables.

Each board in the network is referred to as a “node”.

Reflective memory allows computers, workstations, PLCs and other embedded controllers with different architectures and different operating systems to share data in real time.

The 5565 Series Reflective Memory (referred to as RFM-5565 in this manual) is fast, flexible, and easy to operate.

Data is transferred via write memory (SDRAM) that appears to exist globally on all boards on the network.

The on-board circuitry automatically performs www.ge-drive.com data transfers to all other nodes with little or no host processor involvement.

Features

Features include

– High-speed, easy-to-use fiber optic network (serial 2.12 GBaud)

– 33 MHz 64-bit/32-bit compliant PCI bus, 3.3 V or 5.0 V logic levels

– 66 MHz 64-bit/32-bit compliant PCI bus, 3.3 V logic level

– Host processor does not participate in network operation

– Optional redundant operation modes

– Up to 256 nodes

– Up to 256 nodes up to 300 m to multimode fiber, up to 10 km to singlemode fiber

– Dynamic packet sizes from 4 to 64 bytes of data per packet

– Fiber-optic network transfer rates of 43 MByte/s to 170 MByte/s

– 128/256 MB bytes of SDRAM reflective memory, with optional parity checking

– Independent direct memory access (DMA) channels

– Four general-purpose network interrupts; each interrupt has 32 bits of data

– Configurable endian translation for multiple CPU architectures on the same network

– Selectable PCI PIO window sizes from 2 MB bytes to 64 MB bytes to full installed memory size

– Supported Operating Systems Supports Windows® 2000. Windows XP, Linux®, and VxWorks® operating systems.

– RoHS compliant

Comparison of PMC-5565PIORC and VMIPMC-5565

The PMC-5565PIORC combines the components of the classic VMIPMC-5565 into a single FPGA (Field Programmable Gate Array).

These components include PLX Technologies’ PCI interface device, three separate small FPGAs, a transmit FIFO and a receive FIFO.

The PMC-5565PIORC adds greater design flexibility than the legacy VMIPMC-5565 and improves performance in at least three ways.

1. the PMC-5565PIORC has improved DMA burst and PIO single read access rates over the legacy VMIPMC-5565. 2. the PMC-5565PIORC has improved DMA burst and PIO single read access rates over the legacy VMIPMC-5565.

2. The PMC-5565PIORC’s onboard SDRAM memory access bandwidth has been doubled, improving overall throughput. doubled, increasing overall throughput.

3. The PMC-5565PIORC can be field upgraded as new features are added.

The legacy VMIPMC-5565 contains a set of control registers in the PLX device and a separate set of RFM-specific control registers in the FPGA.

Since these two sets of registers are physically located in different devices, they are accessed through different memory areas.

On the other hand, the PMC-5565PIORC contains two sets of registers in the same FPGA. These two sets of registers could have been combined.

However, in order to maintain software continuity and backward compatibility, the two sets of registers are stored separately as in the classic VMIPMC-5565.

In addition, the individual bit functions within the registers (where applicable) remain compatible.

The PMC-5565PIORC does not include a second DMA engine.

As shown below, the PMC-5565PIORC has an optical transceiver and three LEDs on the front panel.

The port labeled “RX” is the receiver and the port labeled “TX” is the transmitter.The PMC-5565PIORC uses an “LC” type fiber optic cable.

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ABB Transformer Protector RET670 Controller Accessories

Applications

The RET670 provides fast, selective protection, monitoring and control of two- and three-winding transformers, autotransformers, step-up transformers and generator transformer sets.

transformer units, phase shifters, special railroad transformers and shunt reactors.

This IED operates normally over a wide frequency range to accommodate power system frequency changes during disturbances, generator startup and shutdown.

The RET670 features fast, low-impedance differential protection with very low CT requirements. Differential protection function

Differential protection features 2nd harmonic and waveform block suppression to avoid CT saturation and transformer inrush current tripping, as well as 5th harmonic suppression.

It also has a 5th harmonic suppression function to avoid transformer overexcitation trips.

Differential functions provide high sensitivity to low-level internal faults through the use of sensitive differential protection based on amplitude measurement of the negative sequence component and direction comparison.

A variety of low impedance restricted earth fault protection functions are available as sensitive and fast primary protection against winding earth faults.

This function includes an internal/external fault discriminator for increased safety.

In addition, it has a high-impedance differential protection function. It can be used for different applications that

These include limiting earth fault protection as winding protection, autotransformer differential protection, shunt reactor protection, T-feeder protection, busbar protection and generator differential protection.

Trip and alarm signals from the pressure relief, Buchholz and temperature devices can be sent directly to the RET670 via the binary input channels for alarm and standby.

The binary inputs are highly stable against interference and prevent incorrect operation due to, for example, capacitive discharges in the DC system or DC ground faults.

The distance protection function serves as backup protection against faults within the transformer and in the connected power system.

Positive-, negative- and zero-sequence overcurrent functions (selectable direction and/or voltage control) provide further back-up protection.

Thermal overload, overexcitation, overvoltage/undervoltage and overfrequency/underfrequency protection functions are also provided.

A circuit breaker fault protection function for each transformer circuit www.ge-drive.com breaker allows high-speed backup tripping of surrounding circuit breakers.

A built-in disturbance and event recorder provides the user with valuable data on status and operation for post-fault disturbance analysis.

The RET670 can also be optionally equipped with a full range of control and interlocking features, including a synchronization check function for integration of primary or local standby control functions.

The RET670 also features pole slip protection, which detects and evaluates pole slips occurring in the power system and takes the necessary action.

Sections of the power system that are swinging away from each other can be separated by the line closest to the center of the power swing, allowing the two systems to remain stable when separated.

The RET670 can be used with the IEC 61850-9-2LE process bus with up to six Merge Units (MUs).

Advanced logic functions allow user logic to be programmed with graphical tools to enable special applications such as automatic opening of disconnect switches in multi-breaker arrangements, closing of breaker loops and load transfer logic.

Logic can be monitored and debugged online in real time for testing and commissioning.

Communication via fiber optic connections ensures immunity to interference.

Six software packages are defined for the following applications:

– Transformer backup protection (A10)

– Voltage control (A25)

– Single-breaker, two-winding transformers (A30)

– Double-winding transformers with multiple circuit-breaker arrangement (B30)

– Three-winding transformers in single-breaker arrangement (A40)

– Triple-winding transformer in multi-breaker arrangement (B40)

The optional functions are not configured, but a maximum configuration with all optional functions is available as a template in the graphical configuration tool.

Templates for alternative configurations for auto-transformers are also available.

The analog and trip I/O are pre-defined for basic use and come standard with one binary input module and one binary output module.

The binary I/O can be added at the time of ordering, depending on the needs of the application. the other signals need to be set up according to the needs of the different applications.

ABB FPBA-01 PROFIBUS DP Adapter Module

PROFIBUS networks PROFIBUS is an open serial communication standard that allows the exchange of data between all automation components.

There are three main types of PROFIBUS:

– PROFIBUS FMS (Fieldbus Message Specification)

– PROFIBUS DP (decentralized periphery)

– PROFIBUS PA (Process Automation)

The physical transmission medium of the bus is a twisted pair cable (RS-485 compliant).

The maximum length of the bus cable is 100 to 1200 meters, depending on the transmission rate.

Without repeaters, up to 32 nodes can be connected to the same PROFIBUS segment.

If repeaters are used, 126 nodes (including repeaters and a host station) can be connected to the network.

In PROFIBUS communication, the host station – usually a programmable logic controller (PLC) – selects the nodes that respond to the host’s commands.

The host can also send commands to multiple nodes in the form of broadcasts; in this case, the nodes do not need to send feedback signals to the host.

The PROFIBUS protocol is described in detail in the IEC 61158 standard.

The communication with www.ge-drive.com the drives is defined in the PROFIdrive PROFILE – The PROFIBUS Profile for Adjustable Speed Drives.

FPBA-01 PROFIBUS DP Adapter Module

The FPBA-01 PROFIBUS DP adapter module is an optional device for ABB drives.

The module connects the drive to a PROFIBUS network. In a PROFIBUS network, the drives act as slaves.

The adapter module makes it possible to

– Send control commands to the drive (e.g. start, stop, run allow)

– Provide the drive with a motor speed or torque determination

– Provide the drive’s PID controller with the actual process value or the process decision.

– Read status information and actual values from the drive

– Changing drive parameter values

– Reset drive faults.

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Option FDPI-02 Diagnostic and Panel Interface for ABB converters and inverters

Product Overview

The FDPI-02 Diagnostic and Panel Interface is used to branch the RS-485 panel bus and chain a control panel or PC tool to multiple drives.

This interface device provides a straight-through connection between the control unit and the F-type option module.

It is compatible with the ZCU-xx and BCU-xx control units. The www.ge-drive.com interface unit is installed in the option slot of the control unit.

A small F-type option module can then be mounted on top of the Interface Unit.

The Interface Unit has one RJ-11 and two RJ-45 connectors.The RJ-11 connector is used to connect to the Control Unit.

The RJ-45 connector supports a daisy-chained bus for connection to a PC or control panel (simultaneous control panel and PC communication is not allowed).

Bus termination is required to prevent signal reflection at the end of the bus cable. The interface unit has a panel/PC cable bus termination switch.

The termination switch must be in the terminated position if the device is the first or last device on the bus.

If the control panel is connected to one end of the bus, it will terminate the bus, only the other end must be terminated via termination switch S1.

The following figure shows the layout of the interface unit.

FOXBORO 130M Series Pnuematic Controller

The 130M Series Pnuematic controllers offer manual setpoint adjustment and are the standard controller in the Foxboro® 130 Series.

All Foxboro® 130 Series controllers are designed for high-density control room installations.

These devices are ideally suited for applications where precise control is critical to skilled process management.

The 130M Series is essentially the same as the 130P and 130F Series with the exception of the following features:

130P Series: Has setpoints that are pneumatically modified by remote signals.

130F Series: Remote/local switching to support manual or pneumatic modification of setpoints.

Designed for high-density control room installations, these controllers are suitable for any situation where precise control is required for efficient process management.

The basic controller is the 130M series with manual setpoint adjustment. 130P series is similar to the 130M, but the setpoint can be adjusted pneumatically via a remote signal.

The 130F series is similar to the 130M but includes a remote/local switch for manual or pneumatic setpoint adjustment.

Large Eye-Catching Display

The visibility and legibility of the large, brightly colored pointer located directly behind the clear vertical scale has become the benchmark against which other display concepts are judged.

The system provides a continuous full-scale display of all variables, an effective indication of controller deviations, and easy scale changes without tools.

Separate automatic and manual control units

Both the automatic and manual control units can be disassembled without disrupting the process.

This design feature avoids costly downtime for servicing the controller.

Completely Unbalanced and Bufferless Transmission

The 130 Series controllers utilize the “integral balancing” method for bufferless transfer. After transfer, the controller simply responds at the integral (reset) rate that

This eliminates any error between setpoint and measurement. In www.ge-drive.com addition to providing easy, unbalanced and unbuffered transmission, this solution preserves the setpoint.

Simple and cost-effective installation

Up to 10 instruments can be accommodated in a multi-unit rack. All air connections are made when the controller is installed in the rack.

Piping costs are minimized as each rack has its own integrated air supply header and individual air shutoff valve.

Easy Maintenance

The 130 Series utilizes a unique pneumatic circuit board that greatly enhances the sophistication of the pneumatic control system. This board eliminates many of the piping and connections found in other controllers.

All components are located on one side of the board and are easily accessible by sliding back the cover on one side.

Force Balance Control Module

The proven force balance control module ensures long service life and reliability. Due to the use of metal bellows, there is virtually no movement in the flexure suspension mechanism, thus providing the user with a clearly superior controller.

Specialized Controllers for Every Application

Foxboro offers the industry’s widest range of optional accessories and specialized control features. In addition to normal control modes, these include single-station ratios, single-station computer setups, auto selectors, differential gaps, and “batch” processing.

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GE VMIVME-7740 VMEbus Single Board Computers

Intel® Pentium® III PGA370 socket-based Single Board Computers (SBCs) supporting Windows® 98 Second Edition,

Windows NT®/Windows® 2000. Windows CE, Linux, www.ge-drive.com VxWorks, QNX, Solaris and LynxOS operating systems.

-Special features for embedded applications

-Up to 192 Mbyte IDE CompactFlash (optional)

Three programmable 16-bit timers

32 Kbyte non-volatile SRAM

-Supports remote Ethernet boot

-Software selectable watchdog timer with reset.

-Supports VMEbus P2 connection to hard disk/floppy drive.

-PMC Expansion Site with VMEbus P2 Inputs/Outputs

-VME64 mode support: A32/A24/D32/D16/D08(EO)/MBLT64/BLT32

-VMEbus interrupt handlers, interrupters, and system controllers

Includes byte-swapping hardware for little-end and big-end data.

-Enhanced bus error handling

-Passive heat sink design (no moving parts)

-Standard features include

-PGA370 socket processor

Up to 512 Mbyte SDRAM using a 144-pin SODIMM

-AGP SVGA controller with 4 Mbyte SDRAM

Two on-board Fast Ethernet controllers supporting 10BaseT and 100BaseTX interfaces

-Front panel Universal Serial Bus (USB) connection

-Onboard Ultra-DMA-33 hard disk drive and floppy drive controller with VMEbus P2 input/output

Two high-performance 16550-compatible serial ports

PS/2-style keyboard and mouse ports on front panel

Built-in real-time clock and micro-speaker

Microprocessor

– The VMIVME-7740 brings the Intel Pentium III processor to VMEbus.

The VMIVME-7740 introduces the Intel Pentium III processor to the VMEbus with processor speeds up to 850 MHz. the Pentium III processor has 32-bit addressing and a 64-bit data bus.

Its superscalar architecture allows three instructions per clock cycle. Dynamic branch prediction units, separate instruction and data caches, and MMX™ technology also increase processor performance.

The Pentium III processor also offers a 256 Kbyte Advanced Transfer Cache (on-chip, full-speed L2 cache) with dual independent bus architecture for high bandwidth and performance.

This L2 cache is clocked at the same frequency as the processor, which improves performance.

Memory

– The VMIVME-7740 accepts a 144-pin SDRAM SODIMM with a maximum memory capacity of 512 Mbyte.

The maximum memory capacity is 512 Mbyte. on-board DRAM is dual-ported to the VME bus.

BIOS

– The system and video BIOS is provided by reprogrammable flash memory.

Super VGA Controller

– High Resolution

The VMIVME-7740 supports high-resolution graphics and multimedia-quality video through the Chips & Technology AGP graphics adapter.

The adapter is complemented by 4 Mbyte of internal high-bandwidth 64-bit data interface synchronous DRAM.

The graphics adapter supports screen resolutions up to 1.600 x 1.200 x 64.000 colors (single view mode).

Ethernet Controller – The VMIVME-7740 supports Ethernet LAN through dual Intel 82559 Ethernet controllers.

Supports 10BaseT and 100BaseTX options through two RJ45 connectors. Remote LAN booting is supported.

Remote Ethernet Booting – The VMIVME-7740 utilizes Lanworks Technologies, Inc. BootWare to provide the ability to remotely boot the VMIVME-7740 using NetWare, TCP/IP, or RPL network protocols.

BootWare Features:

– Support for NetWare, TCP/IP, RPL network protocols

– Unrivaled boot sector virus protection

– Detailed boot configuration screens

– Comprehensive diagnostic capabilities

– Option to disable local boot

– Dual boot option allows user to select either network or local boot

Serial Ports – The VMIVME-7740 has two 16550-compatible serial ports on the front panel. The serial channel has a 16-byte FIFO and supports baud rates up to 56 kilobytes per second.

56 kilobytes per second. Two micro-DB9 to standard DB-9 adapters (VMIC P/N 360-010050-001) are required.

Keyboard and Mouse Interface – The VMIVME-7740 is equipped with a PS/2 combo keyboard and mouse interface. A Y adapter cable is included.

Flash Memory – The VMIVME-7740 provides up to 192 Mbytes of IDE CompactFlash flash memory, accessible through the auxiliary IDE port.The VMIVME-7740 BIOS includes an option to allow the board to boot from flash memory.

16-Bit Timers – The VMIVME-7740 provides the user with three 82C54-compatible 16-bit timers (in addition to the system timer). These timers are mapped to I/O space and are fully programmable by software.

Watchdog Timer – The VMIVME-7740 provides a software programmable watchdog timer.

The watchdog timer is enabled under software control. Once the watchdog timer is enabled, the on-board software must access the timer within the specified timer period or a timeout will occur. A user jumper allows the timeout to cause a reset.

Independent of the jumper, software can enable a watchdog timeout to cause a non-maskable interrupt (NMI) or VMEbus SYSFAIL.

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GE VMIVME-1111 64-bit High Voltage Digital Input Board with Built-in Tests

Functions

– 64-bit differential or high voltage digital inputs

– Each group of 32 inputs can be monitored by jumper selection:

Contact closure, voltage source, current sink, or differential signal.

– Open provides logic zero or (jumper selectable) logic one.

– Input filter options

– On-board built-in test logic

– Front panel with fault LEDs

– Front panel with fault LEDs for fault detection and isolation

– User selectable input voltage thresholds (1.25 to 66V)

RS422/RS485-compatible differential line receiver provides ± 7V noise immunity

– 8-, 16-, or 32-bit data transmission

– Dual Eurocard form factor

– High-reliability DIN-type I/O connectors

– Compatible with GE Fanuc Embedded Systems’ family of intelligent I/O controllers (901x and 906x series)

– Boot Replacement Option

– Software compatible with VMIVME-1110

Functional Features

Compatibility: Compatible with VMEbus specification. Double height form factor.

Input Connector Type: Dual 64-pin connector – DIN 41612

Input/Output Organization Eight input ports; eight bits wide. Addressable to any address within the short-circuit monitor and/or short-circuit unprivileged I/O map. Control and Status Register (CSR) addresses are independently selectable.

Addressing Scheme: Each of the eight ports can be addressed on 8-, 16-, or 32-bit boundaries. One CSR can be addressed on 8-bit boundaries. 13 jumpers provide unlimited short data I/O address mapping options.

Differential Signal Input Characteristics: Common Mode Input Voltage Range: -30 to +66 V. Common Mode Input Voltage Range: -7 to +12 V. Input Sensitivity ± 100 mV. High Input Impedance (33 kΩ).

Single-Ended Signal Input Characteristics: High input impedance (33kΩ). Threshold accuracy of 1% (typical) over the entire 66V range.

Signal Conditioning Input Filter Terminator Option: The board can www.ge-drive.com be ordered with an input signal filter circuit.

For differential inputs, the circuit consists of a series resistor and capacitor connected across the signal input. For single-ended inputs, the circuit provides an input dither filter with a user-selectable time constant.

Built-in Test: The board is designed with internal self-test logic to test all active components.

Special output registers are provided to generate 16-bit data words for worst-case bit patterns to be used as health tests during real-time or off-line operation.

A special test mode bit in the CSR enables the output test register to drive a differential receiver.

The front panel fault LED illuminates at power-up and can be programmed to go out after successful completion of user-defined diagnostics.

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