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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 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, www.abb-drive.com 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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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 small-end and www.abb-drive.com 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 VMIVME-2127 128-bit Voltage Source Digital Output Board with Built-in Test Support

Functional Features

– 128-bit voltage output

– High current driver (350 mA current source)

– Heavy duty options available

– Automatic overcurrent shutdown protection

– Thermal shutdown protection

– Output fault indication provided in status register

– High breakdown voltage (35 V)

– Output clamp diode for inductive flyback protection

– Compatible with intelligent I/O controllers

– Built-in test logic for fault isolation

– Compatible with VME bus (ANSI/IEEE STD 1014-1987 IEC 821 and 297)

– A24:A16:D32/D16/D08 (EO): Slave 39/3D:29/2D:6U Form Factor

– Front Panel with Fault LED

– Preheat resistor sockets available, to be supplied by the user

– External power supply can be connected on the front panel (P3 to P4) or on P2.

Compliance: This product complies with the VMEbus specification www.abb-drive.com (ANSI/IEEE STD 1014-1987 IEC 821 and 297) and uses the following mnemonics: A24:A16: D32/D16/D08 (EO): Slave: 39/3D:29/2D:6U form factor

Output Connector Types: Three types of female mating connectors are available for use with the P3 and P4 interfaces: 96-pin mass termination (IDC) connectors, 64-pin IDC connectors, and 96-pin discrete wire connectors.

Part numbers for ERNI IDC DIN 96-pin and 0.033-inch 30 AWG ribbon cable are

96-pin connector 913 031 (ERNI)

96-pin cable 913 049 (ERNI)

Part numbers for Panduit IDC DIN 64-pin connectors and 0.050-inch ribbon cable are

64-pin connector 120-964-435E (Panduit)

Strain Relief 100-000-032 (Panduit)

64-conductor cable 9V28064-XXX (Belden)

Harting discrete wire connectors consist of a contact housing with female crimp contacts.

Housing with female crimp contacts Harting part numbers are as follows

96-pin connector 09 03 096 3214 (Harting)

Female crimp 09 02 000 8484 (Harting)` Contacts

Contacts

Crimp tool 09 99 000 0075 (Harting)

(for stripping wires)

Discrete wire connectors require a housing with a retaining bar. We recommend the Harting housing.

Its order number is 09 03 096 0501. This housing latches the discrete wire cable to the board connector and provides strain relief.

Input/Output Organization: 16 output ports, 8-bit wide, 128 total outputs.

Addressable to any address within Short-Circuit Monitor and/or Short-Circuit Non-Privileged or Short-Circuit Monitor and/or Short-Circuit Non-Privileged or Short-Circuit Non-Privileged.

Standard Monitor and/or Standard Unprivileged I/O mapping.

Addressing Scheme: 32 bytes, individually addressable on 8. 16. or 32-bit boundaries. The board ID register is located at the board’s base address.

The Control and Status Register (CSR) is stacked on top of the ID register. 16 output bytes are located above the CSR. 20 jumpers identify the board’s base address.

Another jumper is used for the standard or short address.

Output Drivers: The output drivers provide overcurrent (short circuit) and thermal shutdown protection. The overcurrent protection has a minimum current of 370 mA, allowing safe operation at currents up to 350 mA.

The thermal shutdown function depends on

Thermal shutdown is a function of load, number of channels turned on per byte, and duty cycle. Figure 3 shows the allowable output current at 25 and 50 °C as a function of duty cycle and number of channels turned on.

Since thermal shutdown limits the allowable output current for many applications, a heavy load option is provided by connecting two output devices in parallel.

Parallel Placement. Connecting two devices in parallel may or may not double the short-circuit protection current. However, the overload protection (thermal shutdown) current is doubled.

GE Fanuc VMIPCI-5565 Ultra High Speed Fiber Optic Reflective Memory

Functional Features

– High-speed, easy-to-use fiber optic network (serial rate of 2.12 Gbaud)

– Data written to the memory of one node is also written to the memory of all nodes on the network

– Up to 256 nodes

– Connections up to 300 meters to multimode fiber and up to 10 kilometers to single-mode fiber

– Dynamic packet size, 4 to 64 bytes of data

– Transfer rates 47.1MB/sec (4-byte packets) to 174MB/sec (64-byte packets)

– 64MB or 128MB SDRAM Reflective memory

– Two independent DMA channels

– Any node on the network can generate an interrupt in any other node on the network www.abb-drive.com or in all network nodes with a single command

– Error Detection

– Redundant transfer mode for additional error suppression

– No processor overhead

– Processor is not involved in network operation

– PCI 64-bit 66MHz Transport

– Compliant with PCI Revision 2.2

– Includes VMISFT-RFM2g network and shared memory drivers.

Features

Description: The VMIPCI-5565 is the PCI member of the VMIxxx-5565 family of reflective memory (RFM) real-time networking products from GE Fanuc Embedded Systems.

Other members of this family include the VME-compatible board VMIVME-5565 and the PCI mezzanine card (PMC) VMIPMC-5565.

All three products are network compatible and can be integrated into a network in any combination.

This family of products allows computers, workstations, programmable logic controllers (PLCs) and other embedded controllers with different operating systems or no operating system at all to share data in real time.

Reflective Memory boards are like shared memory for local nodes.

Any level of software, including the application program itself, can write to or read from the memory.

Data written to one node’s Reflective Memory is transferred by the network hardware to all other nodes and placed in the same addresses on those nodes’ Reflective Memory boards.

This data transfer does not require the involvement of a processor on any node. With this system, all nodes on the network have a local copy of the shared data that is immediately accessible.

Product Overview: The Reflective Memory concept provides a very fast and efficient way to share data between distributed computer systems.

The VMIPCI-5565 Reflective Memory Interface allows data to be shared between up to 256 independent systems (nodes) at rates up to 174MB/s. Each Reflective Memory board can be configured with 64MB of memory.

Each Reflected Memory board can be configured with either 64MB or 128MB of on-board SDRAM. local SDRAM provides fast read access times to stored data.

Write data is stored in the local SDRAM and broadcast to other Reflective Memory nodes via a high-speed fiber optic data path.

Data transfers between nodes are software transparent, so there is no I/O overhead.

Transmit and receive FIFOs buffer data during peak data rates to optimize host and bus performance and maintain high data throughput.

Reflective memory also allows interrupts to one or more nodes by writing to byte registers.

These interrupts (four levels, each user-definable) can be signaled to synchronize system processes or to follow any data.

The interrupts always follow the data to ensure that the data is received before the interrupt is acknowledged.

Each node in the system has a unique identification number between 0 and 255.

The node number is determined by placing jumpers on the board during hardware system integration.

Software can read the node number by accessing on-board registers. In some applications, this node number helps determine the function of the node.

Link Arbitration: The VMIPCI-5565 system is a fiber optic daisy chain ring as shown in Figure 2.

Each transmission travels from one node to another until it wraps around the ring and reaches the originating node.

Each node retransmits all transmissions it receives except those it originates.

A node can insert transmissions between passed transmissions.

GE VMIVME-3122 High Performance 16-bit Analog-to-Digital Converter Boards

Product Description

The VMIVME-3122 is a member of VMIC’s extensive VMEbus analog I/O product line.

It features 16-bit digital resolution, program-controlled gain, selectable slew rates, and auto-scanning for 64 differential or single-ended channels,

Auto-scan for 64 differential or single-ended analog inputs.

The VMIVME-3122 has excellent dynamic range and analog input channel density. Multiple modes of operation are supported, including auto-scan, data burst, and external synchronization.

The board interfaces directly with VMIC’s family of signal conditioning boards to digitize the outputs of thermocouples, RTDs, and strain gages.

Individual channel gains can be downloaded for use during scanning operations, or the board can be configured for fixed gains. The boards can be configured for fixed gain common to all channels.

Multiple boards can be synchronized together, allowing up to 16 boards to www.abb-drive.com start each scan simultaneously.

Interval timers, bus interrupters, channel counters, and mid-scan/end-of-scan flags simplify monitoring of data in the dual-port data buffer.

System applications that can benefit from the features of the VMIVME-3122 include factory automation, process control, data acquisition systems, training simulators, and laboratory instrumentation.

The following overview of key features illustrates the flexibility and performance of the VMIVME-3122:

– 16. 32. or 64 differential or single-ended analog inputs

– 16-bit A/D conversion

– Selectable sweep rates from 381 Hz to 100 kHz (high performance option), 381 Hz to 50 kHz (standard performance option)

– Programmable gain of x1 or x10

– A/D converter ranges of ±2.5 V, ±5 V, ±10 V, 0 to +5 V, 0 to +10 V

– Programmable channel gain

– 16- to 1.024-word dual-port data buffer

– Operates in short I/O (A16), standard (A24), or extended (A32) data spaces

– Programmable channel block size and buffer size

– Optional low-pass input filter

– Continuous and burst operation modes

– Free-run or external/internal trigger

– Bus interrupter for mid-scan or end-scan indication

– Programmable interval timer for timing data bursts

– Direct wiring from VMIC signal conditioning boards

– Initialized after reset in Auto Scan mode, gain = x1

Functional Description

The VMIVME-3122 is a high-resolution, 16-bit, 64-channel analog scan and digitizing input board for VMEbus system applications.

Dual-port data memory, on-board timers, automatic gain control, and programmable bus interrupters enable the VMIVME-3122 to support large amounts of analog input traffic with minimal host processor involvement.

Analog inputs are scanned and digitized sequentially. Digital values are stored in dual-port data buffers that are readily accessible from the VME bus.

The gain of each channel can be programmed individually or set by software to a fixed gain common to all channels. Channel gains are software selectable to x1 or x10.

The A/D converter voltage ranges are jumper-selectable to ±2.5 V, ±5 V, ±10 V, 0 to 5 V, and 0 to 10 V. The A/D converter voltage ranges can be set to ±1 or x10 by software.

Upon system or program reset, the board will initialize in 64-channel auto-scan mode at 100 KHz with all channel gains initialized to 1 (x1).

After the reset operation, the program can select timed burst or triggered burst mode and modify the block size, buffer size, and channel gains as desired.

The channel block can be adjusted to 1. 8. 16. 32. or 64 channels, and the data buffer size can be selected from 16 to 1.000 channels.

The data buffer size is selectable from 16 to 1.024 data words in binary increments.

In standard performance mode, the board must be reprogrammed after a reset to obtain a 50 kHz scan rate. The value of $00F7 must be written to relative address $0006.

Timed Data Bursts are controlled by an interval timer that provides repeat or single burst intervals of up to 687 seconds.

A burst can contain from 8 to 1.024 channel samples. A data ready flag can be used in the middle or at the end of a scan, and an interrupt request can be generated at the same time as the flag.

An interrupt can also be initiated after a specific number of samples have been acquired.

GE IC693CHS398 5-Slot Expansion Baseboards

Product Description

The IC693CHS397 is a 5-slot expansion baseboard for the 90-30 Series Programmable Logic Controller (PLC) platform.

Formerly manufactured by GE Fanuc and now part of Emerson Automation, this baseboard has five (5) main I/O slots,

one (1) power slot, and one (1) expansion port. The module supports the installation of standard 90-30 series I/O modules and specialized modules.

It can be mounted directly to the panel using the supplied mounting tabs.

About the IC693CHS398

The IC693CHS398 is an expansion backplane for the 90-30 Series PLCs, formerly manufactured by GE Fanuc and now part of Emerson Automation.

The module can be paired with a CPU baseboard and connected through the expansion port on the CPU baseboard.

With the IC693CHS398. the central processing unit (CPU) module can www.abb-drive.com control additional I/O modules.

The number of expansion boards (e.g., IC693CHS398) allowed per system varies depending on the type of CPU used.

Specifically, up to four expansion boards can be used simultaneously for any of the CPUs 331. 340. and 341. and up to four expansion boards can be used simultaneously for CPU 350 and above.

The IC693CHS398 is equipped with five (5) I/O slots for option modules.

These slots are uniquely sized to prevent improper module installation. This backplane requires a dedicated power supply module to operate.

The power supply is installed through a dedicated power supply slot located on the left side of the hardware. There is also an expansion baseboard port on the far right side of the hardware for connecting additional expansion baseboards.

The IC693CHS398 measures 10.43 x 5.12 x 5.59 inches (W x H x D) and has an internal power requirement of 170 mA at 5VDC.

To ensure continuous communication, the expansion system allows up to 50 feet or 15 meters of interconnecting cable.

This hardware does not support the installation of PCMs, ADCs, Bus Expansion Modules (BEMs), and CMM311 modules.

The IC693CHS398 baseboard, manufactured by GE Fanuc and part of the 90-30 series, is an expansion baseboard.

It can be used as part of a large industrial control system.The IC693CHS398 Expansion Baseboard must always be connected to a CPU baseboard in the PLC, but can only be connected to a total of one CPU baseboard.

However, it is possible to connect multiple expansion baseboards at the same time.

The total number of expansion boards that can be connected to the GE Fanuc 90-30 Series IC693CHS398 Expansion Board at one time depends on the type of CPU.

CPUs 331. 340. and 341 can support up to four expansion boards at the same time, while CPUs numbered 350 or higher can support up to seven expansion boards at the same time.

For safety, the IC693CHS398 expansion board and all other expansion boards in the system must be installed on a common ground.

The IC693CHS398 Expansion Board has five slots for I/O modules and connects to other boards via a 25-pin D-type female I/O expansion connector on its far right edge.

Technical Description of the IC693CHS398

The IC693CHS398 is a 90-30 series component manufactured by GE Fanuc. It is a 5-slot expansion board.

This board is CPU related and is specifically compatible with CPUs 331. 340. 341. and CPU 350. The expansion cable used to connect this board must not be more than 50 feet (15 meters) from the CPU.

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GE IC694BEM331 RX3i Genius Bus Controller

The IC694BEM331 is a Genius Bus Controller Module, part of the GE / Emerson PACSystems RX3i product family.

This module is primarily used to connect the PACSystems RX3i to the Genius serial I/O bus.

It is a single-slot module that can pass Genius blocks, PLCs using Genius bus controllers, remote I/O drops,

VersaMax, and field-distributed I/Os.

It is capable of exchanging up to 128 bytes of data with each Genius I/O device and receiving 128 bytes of global data.

Up to eight (8) IC694BEM331 modules can be installed in an RX3i system.

The Genius Bus Controller IC694BEM331 interfaces the PACSystems RX3i with the Genius I/O serial bus.

In addition to the bus controller, the bus can be used for Genius blocks, other PLCs with Genius bus controllers, and remote data sets,

VersaMax and field control I/O stations, Genius handheld monitors (HHM), and multiple host computers.

Functionality

The bus controller can exchange up to 128 bytes with each device on the Genius I/O bus.

Genius blocks and other devices on the bus automatically report faults, alarms, and certain other predefined conditions to the Bus Controller.

The bus controller stores any diagnostic information it receives, which is www.abb-drive.com automatically read by the CPU. The CPU reads this information automatically. The faults can then be displayed in a fault table using programmed software.

The bus controller supports all Genius datagrams.

The bus controller can send up to 128 bytes of global data per bus scan.

Global data is data that is automatically and repeatedly broadcast by the Genius Bus Controller.

A bus controller can receive up to 128 bytes of global data per bus scan from other bus controllers on its bus.

An RX3i system can contain up to eight Genius Bus Controllers.

LED Indicators

The LEDs on the front of the Genius Bus Controller indicate its operational status. Both LEDs should be lit during normal operation.

OK displays the status of the bus controller. This LED is illuminated when power-up diagnostics are complete.

COM shows the status of the Genius communications bus. This LED is always on when the bus is operating normally.

It blinks during intermittent bus errors and goes out during bus failures. This LED is also off when no configuration is received from the CPU.

The IC694BEM331 supports transmission rates of 153.5Kbaud standard/extended, 76.8Kbaud, or 38.4Kbaud, which are configurable through software.

The required bus termination resistors at each end of the bus cable are 75. 100. 120. or 150 ohms.

The GE controllers have an isolation rating of 2000 volts and a transient common mode rejection isolation rating of 1500 volts.

The GE Fanuc EX3i PacSystems IC694BEM331 bus controller is configured using Proficy Machine Edition software.

It is rated at 300 mA. The bus controller is rated at 5 volts DC.

The bus controller has advanced diagnostic capabilities to accurately locate faults and errors in the operation of the PLC system.

The controller communicates using global data and datagrams.The IC694BEM331 Bus Controller is compact and can be easily installed into a complete PLC system.

The IC694BEM331 bus controller uses daisy-chained or twisted-pair cable. The controller is compatible with GE 90-30 series and 6 series PLC systems.

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GE IC670MDL644 Field Control Logic Fast Input Module

The IC670MDL644 24-volt DC positive/negative input module is a field control logic fast input module manufactured by GE Fanuc.

It provides a set of discrete inputs that can be driven by both positive and negative logic.

The IC670MDL644 24-volt DC positive/negative input module has 16 inputs,

separate LEDs for logic-side inputs and a “PWR” indication LED for monitoring power status.

The bus interface unit provides the power needed to drive the 5-volt logic, and the input devices require power from an external 24-volt DC power supply.

It also provides isolation ratings such as 250 volt AC continuous user input to logic isolation and 1500 volt AC user input to frame ground isolation for 1 minute.

The IC670MDL644 24-volt DC positive/negative input module has a parallel-to-serial converter.

This converts the data in the data buffer to a serial www.abb-drive.com format that can be used with the Bus Interface Module.

When the Bus Interface Module is properly connected, the module’s power LED indicates the power status.

The Bus Interface Module starts reading the processed and converted input data.

The Bus Interface Module has both positive and negative inputs. The positive input is used in order to receive the current from the input device.

The negative input is used to supply current to the input device.

Efficient field wiring of the IC670MDL644 input module can be performed using a terminal block with box terminals or isolated terminals.

The internal circuitry of the module is equipped with a network of resistors and capacitors to provide input thresholding and filtering.

GE IC695CPE305 PACSystem RX3i Controller Module

The GE Fanuc / Emerson Automation IC695CPE305 is a PACSystem RX3i controller module.

The controller has 5MB of RAM and 5MB of non-volatile user memory and a processor speed of 1.1 GHz.

The processor speed is 1.1 GHz with a typical scan rate of 0.72 ms per 1000 Boolean instructions.

The processor has two (2) serial communication ports supporting RS232 and RS485 communication standards, one (1) Ethernet communication port, and one (1) USB 2.0 host port.

About the IC695CPE305

The IC695CPE305 programmable automation controller (PAC) is part of the PACSystems RX3i automation platform.

The controller was manufactured by then GE Fanuc Automation (now Emerson Automation).

The IC695CPE305 has advanced features that are superior to most of today’s PACs.

The controller has the capability of Ethernet communication via one (1) Ethernet communication port.

The port supports 10/100 Mbps communication rates and can be used to communicate with programming workstations, Human Machine Interfaces (HMIs), Supervisory Control and Data Acquisition (SCADA) systems.

third-party hardware and software products, and controllers on the same platform for messaging and inter-controller data exchange.

In addition, the Ethernet port supports OPC UA, allowing connection to third-party devices via the OPC protocol.

The IC695CPE305 is not limited to Ethernet communication as the controller also integrates two (2) serial ports that support RS232 and RS485 communication standards.

It is also equipped with one (1) USB 2.0 master port that allows downloading and uploading of user programmes from a smartphone’s thumb drive.

The IC695CPE305 5MB RAM and 5MB non-volatile user memory has a www.abb-drive.com processor speed of 1.1 GHz and a typical scan rate of 0.72 milliseconds per 1.000 Boolean instructions.

It supports a variety of network protocols such as Ethernet (PROFINET, Ethernet Global Data, Channel, Modbus TCP server and client),

Genius, PROFIBUS DP, and DeviceNet.The IC695CPE305 allows control of up to eight (8) racks, including CPU racks.

This controller supports the installation of additional communication cards that support Serial, Genius, CMX (Reflective Memory), and Ethernet.

This single-slot controller supports up to eight local racks.

The IC695CPE305 RX3i central processor or CPU is electrically designed to comply with PCI 2.2 standards.

It is compatible with generic backplanes, RX3i series PCI devices, and GE Series 90-30 serial devices.

The module’s power requirements are 1 amp at 5 volts DC, 1 amp at 3.3 volts DC, and 0.5 amp at 24 volts DC.

It supports SNP slave, serial I/O, and Modbus RTU slave serial protocols. Ethernet interface specifications include programmer connections,

10Mb/s and 100Mb/s Ethernet data rates, 10BaseT RJ-45 configuration, and remote site manager over UDP.

The IC695CPE305 CPU can be installed in any slot pair in the RX3i mainframe, except the highest numbered slot.

The CPE310 controller can be easily swapped with the CPED305 controller, which is capable of accommodating existing user programs in the processor.

In order to configure the module, Proficy Machine Edition Logic Developer 7.0 SIM 3 or higher is required.

IC695CPE305 Technical Description

The IC695CPE305 RX3i CPU is a central processor manufactured by GE Fanuc.

It comes with a single slot, 8 local racks, 5 MB of user memory, 1.1 GHz processor speed and RS-232 embedded serial communications.

GE DS200ADPBG1ABB Genius Adapter Board

Product Description.

This DS200ADPBG1ABB Genius Adapter Board is a circuit board product from General Electric.

In addition to its functional description as a Genius Adapter Board and a Mark V series turbine control system originally attributed to General Electric, there is some mystery surrounding this product.

There is a bit of mystery surrounding this product. While it could be loosely defined as a General Electric product.

Although loosely defined as a General Electric product, it is likely that this Mark V series product was originally manufactured by a subsidiary of General Electric, such as General Electric Transmission Systems, Inc.

such as GE Drive Systems or GE Industrial Control Systems.

Before deciding to purchase a DS200ADPBG1ABB Mark V Genius Adapter Board.

Consider that this product has used all three of its possible major product revisions, which may have significantly changed its originally labelled performance specifications and dimensions.

Hardware tips and specifications

As with any Mark V Series product, the DS200ADPBG1ABB Genius Adapter Board uses a unique set of advanced hardware components and component specifications

to achieve its intended functionality. First, the Genius I/O Adapter Board DS200ADPBG1ABB features a configuration board consisting of eight switches.

The Genius I/O Adapter Board DS200ADPBG1ABB is also equipped www.abb-drive.com with a 40-pin connector and a 26-pin connector.

The third and final intuitively recognisable hardware element is critical to the DS200ADPBG1ABB Genius Adapter Board.

That is its array of manually removable hardware jumpers, which are included in its assembly for the highest customisation purposes.

The information stored on this personalised DS200ADPBG1ABB product page is the extent of the information that can be retrieved when checking the available DS200ADPBG1ABB manual data.

Nevertheless, a great deal of information can still be retrieved from the DS200ADPBG1ABB product number itself (beginning with the DS200 series label).

The series label has a double naming responsibility for this Mark V series product, indicating that it is a domestically produced General Electric product with a normal type of assembly.

Some of the other information shown in the DS200ADPBG1ABB Functional Product Number for this DS200ADPBG1ABB Genius Adapter Board includes:

ADPB Functional Abbreviation

Common Style PCB Coating

First Mark V series grouping

One Level A and one Level B functional revision

One Level B artwork revision

Frequently Asked Questions about the DS200ADPBG1ABB

What is the assembly type of this DS200ADPBG1ABB Genius adapter board?

This DS200ADPBG1ABB Genius adapter board has a normal assembly type, as evidenced by the DS200 marking in its functional part number DS200ADPBG1ABB.

Is this a large printed circuit board from General Electric?

While this DS200ADPBG1ABB Genius Adpater board is not the largest General Electric printed circuit board, it is a fairly bulky model given its distinctive “L” shape.

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