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GE IC200MDL940 16-Point Relay Output Module

DESCRIPTION: The IC200MDL940 is a 16-point relay output module for the VersaMax I/O family, formerly manufactured by GE Intelligent Platforms and now part of Emerson Automation.

The module has sixteen (16) individually isolated normally open (N.O.) or type A contacts rated from 0 to 125VDC,

5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz), 120/240VAC nominal output voltage with output contacts rated at 2.0 amps.

About the IC200MDL940

The IC200MDL940 is a relay output module that is part of Emerson Automation’s VersaMax I/O platform, formerly offered by GE Fanuc.

The module is equipped with sixteen (16) independently isolated Type A relay output contacts rated from 0 to 125VDC,

5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz), 120/240VAC nominal output voltage with output contacts rated at 2.0 amps.

With built-in channel-to-channel isolation, each contact output can be connected to a different voltage www.abb-drive.com source to power the appropriate electrical device connected to the output channel.

The module’s embedded relay is a fixed coil, moving armature type with contacts made of silver alloy.

The module can be used to energize output devices such as relay coils, solenoid-driven instruments, indicator lights, and other instruments.

It has no snubber circuits or internal protective fuses, however, the user can install external protection accordingly.

The module does not display output leakage currents because the contact outputs are open-circuit when not activated.

In addition, each output channel has a response time of 10 ms and is dedicated to open-to-closed and proximity-to-open contact switching.

The maximum switching frequency of each output contact is 20 cycles per minute when used with inductive loads. Each output channel is equipped with a separate channel status indicator to characterize the operating status of each channel.

This IC200MDL940 has a maximum backplane current consumption of 490mA and requires a rating of 0 to 125VDC,

5/24/125VDC and 0 to 265VAC (47 to 63Hz) nominal external power supplies with a nominal supply voltage of 120/240VAC.

The IC200MDL940 module is a VersaMax PLC relay output module manufactured by GE Fanuc. It is equipped with 16 output points.

The module has A-type contact outputs and is compatible for use in Class 1 Division 2 rated environments over a temperature range of 0 to 60 degrees Celsius.

It complies with different environmental and industrial standards, including CE and cULus standards. These individual points are isolated from each other.

The IC200MDL940 module is rated for 24 volts DC and 120 to 240 volts AC. It is rated at 2 amps.

The front of the module has a lock/unlock lever. Each point has an LED to indicate activity on that point.

When the CPU logic bit is set to 1. the contacts in the module are closed.

The GE Fanuc VersaMax IC200MDL940 module is powered through the backplane. Loads on the module should be powered through an external power supply.

An additional CPU is required to handle the logic operations of the module. The logic and frame ground isolation ratings for the user input module are 250 volts AC continuous, 1500 volts AC for time periods up to 60 seconds.

The output voltage drop is 0.3 V maximum. The IC200MDL940 module has a load current of 10 mA per point.

The relay used in the module is a fixed coil relay with a movable arm. The contact type is made of high quality silver alloy.

GE General Electric DS200DCFBG1BJB Circuit Board Assembly

Product Description:

The DS200DCFBG1BJB is a circuit board assembly manufactured by General Electric as part of the Mark V Speedtronic system.

The DS200DCFBG1BJB is used to provide control level power to drives and cabinet fans.

The DS200DCFBG1BJB is used in EX2000 applications as well as DC2000. FC2000. GF2000. ME2000. CB2000 and AC2000 IGBT drive applications.

The DS200DCFBG1BJB product belongs to the Mark V family of products with specific applications in control and management systems for automated drive assemblies for steam, wind and gas turbines.

It is one of the last product families to utilize General Electric’s patented Speedtronic control system technology.

This DS200DCFBG1BJB printed circuit board larger Mark V turbine control system series is also considered to be a legacy series for General Electric.

Given that it was eventually discontinued by the original manufacturer within a few years of its initial release. This DS200DCFBG1BJB printed circuit board or PCB for short.

could indeed be better defined by its official functional product description as www.abb-drive.com a power supply board.

Although the original power supply board manufactured for use with the Mark V series was the DS200DCFBG1 power supply board that lacked the triple revision history of this DS200DCFBG1BJB product.

Hardware Tips and Specifications

The DS200DCFBG1BJB is a large rectangular board with a large number of surface mounted components. These include seven 4-position DIP switch devices and twelve configurable jumpers.

Six DIP switches are located together on one side of the board. These are used to scale or change many different inputs.

For example, switch number 4 (SW4) is used to regulate the voltage applied to the VCO output bridge circuit.

The board also has a neon light to indicate a blown fuse in the 115 VAC line and two LEDs to indicate blown fuses in the +24 VDC line and -24 VDC line.

Several specific integrated circuits of note are provided on the substrate of this DS200DCFBG1BJB product.

These integrated circuits, like many of the individual hardware components available in the assembly of this DS200DCFBG1BJB product, are accompanied by their own set of factory-printed nomenclature.

Each circuit contributes to a specific DS200DCFBG1BJB board and to the more robust Mark V Series automatic driver assembly features.

The integrated circuits in this DS200DCFBG1BJB power board assembly include:

Voltage and current feedback VCO circuits

Motor voltage attenuation circuitry

AC line magnetism and zero crossing circuits

Contactor drive circuitry

Field/armature SCR ignition circuitry

As noted above, each of the previously named circuits in this DS200DCFBG1BJB printed circuit board assembly was created by applying its specific function

applied to the larger DS200DCFBG1BJB board and Mark V series automatic drive assembly.

The various circuits of this DS200DCFBG1BJB product often have critical applications for the SDCC and LDCC boards in the Mark V series.

Both of these General Electric printed circuit boards are also available today from our inventory of new and refurbished circuit board products.

Other DS200DCFBG1BJB board components include test points, I/O connectors (1PL-1 through 1PL-40. 2PL-1 through 2PL-9. 4PL-1 through 4PL-5 and 5PL-1 through 5PL-26).

as well as fuses, resistor networks and resistors, capacitors, transistors, heat sinks, transformers, and relays. The board has test points for checking voltage signals and fuses for protection.

GE VMIVME-3113A Analog-Digital Converter Board with Built-in Tests

Function

64 differential or single-ended inputs

Starts in auto-scan mode – no software initialization required

Continuously digitizes input channels and stores results in dedicated www.abb-drive.com channel dual-port registers (auto-scan mode)

Jumper-selectable scan from 2 to 64 channels

Supports real-time and off-line built-in testing

Five operating and test modes

-Auto Scan Mode (Gain = 1)

– Random polling mode

-Random interrupt mode

-Scan polling mode

-Scan interrupt mode

VME bus interrupts can be programmed to interrupt at the completion of a single A/D conversion or at the completion of a 2- to 64-channel sweep

User programmable interval timer supports periodic scanning of all channels

Jumper programmable gains of 1. 10. 100. 200. and 500

Selectable A/D ranges of 0 to +10V, +5V and +10V

Low and high inputs: +10my to +10V

Selectable low-pass filter (VMlVME-3113A for better high-frequency rejection)

Overvoltage protection input

5 x 1060 input impedance

33 kHz conversion rate

Selectable output codes: binary, offset binary, binary with sign extension

Applications

-Factory automation and instrumentation – Process control

-Laboratory instrumentation

-Machine monitoring

– Data acquisition

Features

Description: This product is designed to support 64 channels of differential or single-ended wide range (±10mV to ±10V) analog inputs.

The board supports the following modes of operation:

Auto Scan

Random Polling

Random Interrupt

Scan Polling

Scan Interrupt

Auto Scan with BIT

The 64-word dual port provides storage for continuous scanning of all channels. Scan patterns can be performed automatically at power-up, system reset, or entered under program control.

Dual port registers allow access to the VMEbus at any time to read the latest stored data.

Jumper-selectable programmable gain amplifiers support gain ranges of 1. 10. 100. 200. and 500. A/D conversion time is 15 µs. Multiple low-pass filters are supported.

Operation Modes

Auto Scan Mode: This mode is executed via power-up system reset or program selection. All channels are scanned continuously and digitized data is stored in 64- and 16-bit dual-port registers.

No additional programming is required to initiate the A/D conversion process. The user simply reads the digitized data from the dual-port register of the desired channel. This mode is only available with a gain of 1 and at least 16 connected channels.

16 connected channels.

Random Polling Mode: This mode requires the control program to generate a conversion. The end of the conversion is determined by polling the end-of-conversion status bit.

Random Interrupt Mode: This mode is the same as Random Polling Mode, but an interrupt is issued to the CPU board at the end of the conversion.

Scan Polling Mode: This is a scanning mode that performs a scan of all channels. The end-of-scan control bit is polled to determine when the scan is complete.

Scan Interrupt Mode: This is a scan mode that performs a single scan of all channels and generates an end-of-scan interrupt at the end of the scan.

Auto Scan Bit Mode: All channels are scanned continuously and channel 0 is multiplexed in one of three exact reference voltages. The voltages are 4.980. 0.4928. and .009915V.

Programmable Interval Timer: 16-bit triple timer (cascadable to 48-bit) can be programmed to generate a periodic trigger to initiate an A/D scan.

External Trigger: Scan can be initiated using a user connected signal. Board Components

GE Multilin 745-W2-P1-G1-HI-T-H Transformer Protection Relay

The GE Multilin 745-W2-P1-G1-HI-T-H Transformer Protection Relay features transformer overload protection and overexcitation protection to ensure smooth transformer operation.

It also monitors, records and displays trends in system variables such as temperature, voltage, power, energy consumption and rate of change of frequency.

Product Description

The 745-W2-P1-G1-HI-T-H is a GE Multilin transformer protection relay that extends transformer life expectancy and optimizes transformer performance.

It protects and manages small, medium and large transformer systems. Part of the 745 Series, the 745-W2-P1-G1-HI-T-H features transformer overload protection and overexcitation protection to keep transformers running smoothly.

It also monitors, records and trends system variables such as temperature,www.abb-drive.com voltage, power, energy consumption and frequency rate of change.

These values can be quickly referenced through the relay’s software program, Enervista 745.

The Enervista 745 software program can also be used to edit setpoints. Utilizing GE Multilin’s quick connect feature, the

Connecting the relay to a computer is simple with the GE Multilin Quick Connect feature. The connection can be established via Ethernet, the RS232 port on the front, or the RS485/RS422 port on the back of the panel.

The program assists in managing system setup and automatically flags programming errors or conflicts as the user adjusts setpoints.

The 745-W2-P1-G1-HI-T-H’s enhanced 40-character display is larger than the base model and includes an extended keypad for easy manual setpoint entry.

The enclosure is 9″ high by 7″ wide by 7 ⅛” deep. The transformer protection system can be mounted on a standard 19″ panel, but care should be taken that the enclosure door opens and closes freely without contact with other components.

A number of LEDs on the front of the chassis alert the user to various statuses and errors in real time.

Frequently Asked Questions about the 745-W2-P1-G1-HI-T-H

What makes the Multilin 745-W2-P1-G1-Hi-T-H unique compared to other transformer protection relays in the 745 series?

The 745-W2-P1-G1-Hi-T-H Multilin transformer protection series contains unique options that differ from other part numbers.

Notably, the “-H” option indicates that the relay has a harsh chemical environment conformal coating for operation in harsh environments.

The T option in the 745-W2-P1-G1-Hi-T-H Multilin Dual Winding Transformer Management Relay differs from other relays in the 745 system in terms of display and Ethernet.

Transformer protection systems without the T option have either a basic display (B) or an enhanced display (E) with a larger LCD.

The T option comes with an enhanced display, larger LCD, and 10Base-T Ethernet.

GE IS215VCMIH2CC Bus Master Controller Module Communication Converter Card

Functional Description

The IS215VCMIH2CC is a GE-developed bus master controller module that is part of the Mark VI control system.

It is part of the Mark VI control system.The VCMI bus master controller plays a key role in the system architecture as an integrated communications interface that coordinates the exchange of data and commands.

As the link between the master controller and the array of I/O boards, the VCMI ensures smooth and efficient communication channels and facilitates seamless integration of the various components.

In addition, VCMI’s importance is reflected in its connection to the wider system control network, known as the IONet, which plays a vital role in coordinating communications across the network infrastructure.

Features

A distinctive feature of the VCMI is that it acts exclusively as a VMEbus master within the control and input/output racks.

The VCMI is responsible for the VMEbus, a standardized computer bus structure, and oversees the coordination of data transfer and control signals within these racks.

The VCMI manages the assignment of unique identification (ID) to all boards in the rack and their associated terminal boards.

This ID management function ensures that the various components within the rack are identified and interacted with in a systematic and organized manner, thereby increasing the overall efficiency and reliability of the system.

The VCMI Bus Master Controller is a multifaceted communications hub that seamlessly www.abb-drive.com connects controllers, I/O boards and the broader system control network.

As a VME Bus Master Controller in a given rack, it enhances its ability to manage and optimize the flow of information, ultimately improving the performance and cohesiveness of the integrated system.

Board Type: 6U High VME Boards

The boards specified are classified as 6U High VME boards and are dimensioned to meet the widely adopted VME standard. At 6U high, the boards conform to a standard form factor and are compatible with a range of systems and platforms that meet the same specifications.

At 0.787 inches wide, this VME board integrates seamlessly into the VME chassis, contributing to the modularity and scalability of the overall system.

Processors

Texas Instruments TMS320C32 32-bit Digital Signal Processor: At the heart of this VME board is the highly capable Texas Instruments TMS320C32.

This processor is a 32-bit digital signal processor (DSP) known for its ability to handle complex mathematical calculations and signal processing tasks.

The TMS320C32 is a rugged, purpose-built processor ideally suited for applications requiring high-speed, efficient digital signal processing, and is therefore well suited to the intended function of this board.

Memory

Dual-port memory, 32-bit transfer configuration 32 Kbytes: The memory architecture of this VME board is designed for optimal performance and data processing.

The board is equipped with dual-ported memory, which facilitates simultaneous access to data from multiple sources, increasing overall efficiency.

The memory configuration includes 32 Kbytes of SRAM (Static Random Access Memory) in a 32-bit transfer setup.

This memory selection meets the requirements of data-intensive applications, ensuring fast access and retrieval of information.

SRAM, 64k x 32; Flash, 128k x 8: For further memory specifications, the boards are equipped with 64k x 32 SRAM, providing a large cache for storing and processing data in real time.

In addition, a 128k x 8 Flash memory further extends the board’s storage capacity, providing non-volatile memory for program storage and data retention.

This dual-memory configuration meets the diverse needs of the applications supported by the board, balancing speed and data persistence.

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GE IS215AEPAH1A Fan Control Card Printed Circuit Boards

The IS215AEPAH1A AEPA card module assembly is manufactured by GE Energy for use with the Mark VIe wind turbine control system family.

Product Description.

This IS215AEPAH1A printed circuit board was originally designed for General Electric’s Mark VIe series.

This Mark VIe series is a line of wind turbine system control and system control component products.

These products are actually manufactured by GE Energy, an alternative energy manufacturing company that exists as a shell company for retailers of the General Electric industrial giant.

This is a revised printed circuit board, modified from its original IS215AEPAH1 parent board by including a single-function revision rated “A”.

This GE Energy Mark VIe Wind Turbine Series PCB can be more accurately defined as an alternative energy power assembly by its functional description.

Hardware Tips and Specifications www.abb-drive.com

This IS215AEPAH1A Alternative Energy Power Assembly may be best understood when its hardware elements are contextualized according to the intended function of this printed circuit board.

The first descriptor for the function of this AEPA-abbreviated product is present in its functional description as an alternative energy power supply assembly.

This functional description happens to be an exact match to the AEPA functional acronym for this product, a rare blessing for a specialized Mark VIe series product.

The series to which this IS215AEPAH1A board belongs actually provides additional insight into the functionality of this product.

Considering the place of the IS215AEPAH1A PCB in the Mark VIe family of wind turbine control systems, it is not surprising that this GE Energy board is dedicated to wind turbine applications.

Now that the functional status of this IS215AEPAH1A PCB as an alternative energy power supply assembly has been described.

Then it is possible to highlight some of the hardware specifications available for this Mark VIe wind turbine series product.

Considering this product’s place in the specialized and recently developed Mark VIe wind turbine family, little original product-specific instruction manual material detailing the hardware of this IS215AEPAH1A PCB exists online.

That said, this initial Mark VIe series label identifies the board as an alternative energy power supply assembly with special component versions.

This IS215 series label has dual naming capabilities for this IS215AEPAH1A product; it also outlines its status as a domestic GE printed circuit board.

The original manufacturing location of this PCB can be traced more specifically to GE’s plant location in Salem, Virginia.

In this IS215AEPAH1A part number, the IS215 series label is followed by an example of the AEPA functional acronym.

It is itself followed by the H1 series grouping label, which, like the IS215 series label mentioned earlier, provides a dual naming convention for this product.

This H1 grouping label indicates that the product is a conformal coated printed circuit board with Mark VIe series grouping.

While the conformal style of PCB coating specific to this power supply assembly is well documented, given its widespread use on General Electric circuit boards, the first Mark VIe grouping of this part is the Mark VIe grouping.

The true meaning of the first set of Mark VIe series alignments for this component has been lost.

The last A digit of the IS215AEPAH1A part number is a reference to a Class A functional revision of this part, which may significantly affect the performance specifications and original measured dimensions of this IS215AEPAH1A product.

GE VMIVME-1150 64-bit Optically Coupled Digital Input Board

-64 optically coupled digital inputs

-5 V to 48 VDC input range

-High isolation, 1.000 V continuous, 7.500 V pulse voltage

-Filter input options

-Dual I/O connectors

-Contact closure sensing

-Voltage or current source input options

-Positive or negative true input options

-Dual Eurocard form factor with front panel

8-bit or 16-bit data transfer

-Unprivileged or supervisory I/O access

-Highly reliable DIN-compatible input connectors

Functional Features

Board Features:

This 64-bit optically coupled digital input board is designed and optimized for the VME bus.

The VMIVME-1150 is highly isolated and provides a flexible, low cost, high noise immunity 8-byte digital input port. The functional block diagram is shown below.

Compatibility:

The VMIVME-1150 is a standard double height printed circuit board that is electrically and mechanically compatible with the VME bus.

Input Organization:

Eight input ports, each eight bits wide. The ports are organized as eight consecutive 8-bit read-only registers.

Addressing Scheme:

Each 8-bit port is individually addressable anywhere within an 8-bit or 16-bit boundary.

Short-circuit monitoring or short-circuiting anywhere within unprivileged I/O space.

Board Address:

The board address is selected by the on-board DIP switches. Runs in any available slot on the VMEbus backplane except slot 1.

VMEbus Access:

The address modifier bits are decoded to support short supervised or unprivileged short I/O access. A jumper is www.abb-drive.com provided to support this option. The board is factory configured for short supervised I/O access.

VME Bus Reply:

The DTACK reply is a response to a data select (DS0 or DS1) and the decoded board address.

Board Address.

Data Transfer Type:

D8. D16

Access Time

Maximum 250 milliseconds

Data Polarity

Sorted by positive or negative true. This depends on the input assertion of the board. To assert an input, current must flow through the LED in the optocoupler.

For positive “true” boards, this current will indicate a logic “1” to the VME bus. If the board is ordered with negative true logic, the board will display a logic zero to the VMEbus when current is flowing through the LED.

Input Characteristics

Signal Conditioning:

The input can be either a voltage or current source with a voltage range of 5 to 48 V. The input can be either a voltage or current source with a voltage range of 5 to 48 V.

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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 www.abb-drive.com 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 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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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, 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 www.abb-drive.com 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 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 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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