Category: GE

Benefits

– Highly scalable technology supports up to 256 nodes

– Bus-independent design protects your investment in your current network infrastructure

– Low-latency, deterministic data rates for predictable, high-performance application deployments

– Seamless integration with GE Fanuc Intelligent Platforms’ SBC solution and most industry-standard products

– PIO version offers increased PIO read performance and field-upgradeable firmware

Reflective Memory is a halo-based, ultra-fast shared memory networking solution.

It allows distributed networks to share real-time data at a defined rate, independent of bus architecture and operating system.

GE Fanuc Intelligent Platforms has over 15 years of experience in this area and is a pioneer in this technology.

Our 5565 Reflective Memory family further solidifies our market leadership.

How did we do it? Our approach is simple. Our Reflective Memory technology is centred on an innovative and efficiently designed hardware platform.

The platform is easy to use, with greater distance between nodes and higher noise immunity.

Distance between nodes, high noise immunity, optional node bypass and no software overhead.

Only the on-board memory needs to be read and written, the Reflective Memory node controller does the rest.

The 5565 Reflective Memory family is available in multiple form factors including PCI Express (PCIE-5565RC),

PMC (PMC-5565PIORC and PMC-5565), PCI (PCI-5565PIORC and PCI-5565) and VME (VME-5565).

This family of products allows computers, workstations, PLCs and other embedded controllers to share data in real time.

Data transfers between nodes are software transparent, so no processor overhead is required.

Data written to reflective memory is broadcast to all nodes on the network without further involvement of the sending or receiving node.

GE Fanuc Intelligent Platforms’ Reflected Memory products are proven and highly reliable.

They are used around the world in applications such as data acquisition, simulation and training, industrial automation, and electronic communications.

Most importantly, GE has the experience, stability, innovation and commitment to provide you with global support and service.

Features

Features include

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

– x4-lane PCI Express 1.0a to PCI bridge

– Network operates without the involvement of a host processor

– Optional redundant operating modes

– Up to 256 nodes

– Connections up to 300 m to multimode fibre, up to 10 km to singlemode fibre

– 10 kilometres

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

– Transmission rates over fibre-optic networks from 43 MByte/s to 170 MByte/s

– 128/256 MB bytes of SDRAM reflective memory, parity selectable

– Independent direct memory access (DMA) channels

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

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

– Selectable PCI PIO window size 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 PCIE-5565RC and VMIPCI-5565*

The classic VMIPCI-5565* contains multiple components that are combined into a single Field Programmable Gate Array (FPGA) in the PCIE-5565RC.

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

Compared to the legacy VMIPCI-5565. the PCIE-5565RC adds greater design flexibility and improves performance in at least three ways.

1. The PCIE-5565RC has improved DMA burst and PIO write access rates over the legacy VMIPCI-5565. 2.

2. The PCIE-5565RC doubles the on-board SDRAM memory access bandwidth, improving overall throughput.

3. The PCIE-5565RC can be field upgraded with new features.

Product Description

The IC200MDL240 is a 16-point discrete input module in the VersaMax I/O family, formerly manufactured by GE Intelligent Platforms and now owned by Emerson Automation. The module has sixteen (16) channels of positive or source inputs that accept 120 VAC input signal voltages with a signal range of 0-132 VAC, 47-63 Hz, and a minimum user input current of 7 mA per point.The module has a backplane 5VDC output current of 110 mA.

About the IC200MDL240

The IC200MDL240 is a discrete input module from the VersaMax I/O platform formerly manufactured by GE Intelligent Platforms and now manufactured by Emerson Automation. The module is a sixteen (16) point discrete input module that supports forward logic or source wiring configurations. It can be used to connect field and electrical devices that provide binary or on/off signal states, such as auxiliary contacts, proximity sensors, pushbutton devices, limit switches, and similar devices.

This 16-point module accepts an input signal voltage range of 0-132 VAC, 47-63 Hz, with a nominal signal voltage of 120 VAC and a minimum on-state current of 7 mA.The input channels are divided into two (2) groups of eight (8) channels each with a dedicated common channel. Its group-to-group isolation is rated at 250 VAC for 1 minute and 1500 VAC. Similarly, the module’s optical isolation (logically isolated user inputs) as well as rack ground isolation are rated at 1500 VAC (1 minute) and 250 VAC (continuous).

The turn-on response time for each channel is 1 cycle with a minimum of 2 ms, while the turn-off response time is 2 ms. The turn-on state voltage is 70-132 VAC, and the turn-off state voltage range is 0-40 VAC. In addition, the turn-on state current is a minimum of 7 mA, while the turn-off state current is a maximum of 1.5 mA.

The IC200MDL240 is a DIN-rail mount type that supports both horizontal and vertical orientations. When the module is mounted vertically, there is no performance derating, but there is a 132 VAC derating.

Description:

The IC698PSA350 is a power supply module for the PACSystem RX7i platform, currently part of Emerson Automation, formerly known as the General Electric Intelligent Platform (GE IP). This power supply mounts to the RX7i universal backplane. It has an input voltage range of 85 to 264 VAC 47 to 63 Hz and 100 to 150 VDC with a maximum input power of 440 watts (typical) and 500 watts (maximum). All three (3) outputs (e.g., 5 VDC, 12 VDC, and -12 VDC) have a maximum output power of 350 watts and output currents of 0-60 amps, 0-12 amps, and 0-4 amps, respectively.

The IC698PSA350 is a high capacity www.cniacs.com power supply module for the PACSystem RX7i controller family. The module is used to provide backplane power, which the module uses to activate internal circuitry and begin operation. The power supply module occupies one slot in the chassis and can only be installed in slot 0 of the RX7i chassis.

The IC698PSA350 operates with input voltages of 85 to 264 VAC, 100 to 150 VDC, and an AC input frequency of 47 to 63 Hz. The module is rated at 120/240 VAC and 125 VDC, and has input power requirements of 440 watts typical and 500 watts maximum. The power factor of this power supply module is 0.99 when used for AC input power.

The IC698PSA350 is a single-slot power supply module that mounts in the leftmost slot of the RX7i chassis or slot 0. It is equipped with various LED status indicators. It is equipped with various LED status indicators to help identify the module’s operating status. These include the “Field OK”, “Output OK”, and “Over Temperature” LEDs. The power module has built-in protection circuits such as over-temperature and over-voltage protection and airflow protection. A 70 CFM forced air cooling fan under the system chassis provides cooling air to the power supply module. If a stoppage in airflow is detected, the overheat LED will illuminate.

The IC698PSA350 power supply is available in both Series A and Series B. The Series A power supply has an internally mounted 0.25″ x 1.25″ fuse, while the Series B power supply has a 5 x 20 metre fuse. The fuses installed are 8A/250V fuses.

The IC694CEE001 protects critical applications where any single point of failure affecting more than one I/O module is unacceptable.

The RX3i IO is designed for mission-critical discrete and process applications.

With advanced diagnostics and outstanding flexibility, this rack-based IO offers a wide range of standard and advanced IOs.

The IC694CEE001 carrier connects a remote node consisting of an RX3i I/O module to a PROFINET I/O local area network (LAN).

and connects it to the RX3i CEP001 carrier. This allows you to add another RX3i IC694 I/O module to the remote node.

The main remote I/O functions of the www.cniacs.com IC694CEE001 carrier include: scanning of all modules within the remote node (input and output scanning).

Publishing data to PROFINET IO controllers on the PROFINET network during a user-specified production cycle.

Receiving data from PROFINET IO controllers on the PROFINET network according to the production timeframe defined by the customer; and

Monitoring PROFINET communication and module configuration between PROFINET I/O controllers and modules in remote nodes.

Manage the status of the I/O in the event of a communication outage; and issue fault messages (such as alarms and diagnostics), alarms and diagnostics) to the controller.

NOTE: The USB port is for firmware upgrades only and should not be used for permanent connections. The CEP Carrier requires a user-supplied +24 VDC power supply.

Functions

Scans all modules within a remote node (input and output scanning)

Publish data to the PROFINE IO controller on the PROFINET network during a user-specified production cycle

Receives data from PROFINET IO controllers on the PROFINET network during a user-specified production cycle

Manage PROFINET communications and module configuration between PROFINET IO controllers and modules within remote nodes.

Manage the status of I/O in the event of a communication outage

Publishing fault messages (alarms, diagnostics, etc.) to PROFINET IO controllers

Comprehensive programming and configuration services for all supported RX3i IO modules using Proficy Machine Edition

Supports daisy-chained/linear, star or ring (redundant media) network topologies

Two switched Ethernet ports: two eight-core RJ-45 shielded twisted-pair 10/100 Mbps copper interfaces

One USB port for field updating firmware using WinLoader

Product Description.

The IS220YDIAS1A is a discrete contact input/output module from General Electric.

This module is designed for gas and steam industrial control in the Mark VIe Speedtronic control system.

The Mark VIe was the last Speedtronic system designed by GE and was one of a series of industrial control systems marketed under the Speedtonic name.

The IS220YDIAS1A is part of the Mark IVe control system or Mark VIeS functional safety system.

As an I/O block, it is designed to be plugged into specific terminal blocks such as the IS200STCIS1A and 2A, IS400STCIS1A or 2A or IS400TBCIS2C.

The IS220YDIAS1A has an on-board power www.cniacs.com supply with a nominal voltage of 28.0 VDC.

The contact inputs and contact wetted outputs have a maximum nominal voltage of 32 VDC.

The IS220YDIAS1A has both UL and CE approvals. It can be used in both hazardous and non-hazardous locations.

Hazardous location use ratings can be found in documents such as GE’s GEH-6725.

This I/O module is designed for use in ambient conditions from -35 to 65 degrees Celsius.

The IS220YDIAS1A is a well-designed module that can be easily mounted on the IS230 terminal board.

The simplicity of installation and availability of documentation make this module ideal for most applications.

Numerous indicator LEDs on the front of the module allow the user to read the status of the IS220YDIAS1A discrete input module.

Features

– 64-bit high voltage output

– High current driver (600 mA sink current)

– Inrush current auto shutdown protection option

– Thermal shutdown protection www.cniacs.com option for driving incandescent lamps or inductive loads

– High breakdown voltage (55 V)

– Output clamp diode for inductive flyback protection

– Compatible with intelligent I/O controllers

– Built-in test logic for fault isolation

– Highly reliable DIN-type I/O connectors

– 8-, 16-, or 32-bit transmission

– Dual Eurocard form factor

– Separate board address decoding for control and data registers

– Optional pull-up resistors for electronic switch outputs

– Optional TTL outputs

– Front Panel with Fault LED

Functional Features

Compatibility: Compatible with VMEbus specification.

Double height form factor.

Output Connector Type: Dual 64-pin connector DIN 41612.

Output Organisation Eight ports, eight bits wide.

Addressable to any address within the Short-Circuit Monitor or Short-Circuit Unprivileged I/O map. Control and Status Register (CSR) addresses are independently selectable.

Address Modifier Codes: Short-circuit supervisory or short-circuit unprivileged I/O access can be selected via jumpers.

Factory configured for short-supervised I/O access.

Addressing Scheme: Eight ports can be individually addressed on 8-bit, 16-bit, or 32-bit boundaries.

CSR’s separate board address decoder allows hardware control addresses to be grouped for software efficiency.

Data Transfer Bus: A16: D8. D16. D32

Built-in Test: This product supports offline and real-time fault detection and isolation. Offline mode can be enabled by writing the CSR Set Test Mode bit.

When test mode is enabled, all outputs are off. When test mode is enabled, all outputs are off.

Features

– 64 different or single-ended inputs

– 16-bit analogue-to-digital conversion (A/D)

– Software selectable conversion rate (up to 100 kHz)

– Programmable selection of scanning 1. 8. 16. 32 or 64 channels

– Continuous digitisation of selected www.cniacs.com input channels and storage of results

– Three trigger modes

– Software triggered

– External trigger

– Interval timer trigger

Three scanning modes

-Automatic scanning

-Single scan

-Random access

– Programmed VME interrupts

– User programmable interval timer

– Software programmable gains of 1 and 10

– External trigger synchronises multiple boards simultaneously

– Jumper-selectable A/D ranges of 0 to +5V, 0 to +10V, ±2.5V, ±5V, and ±10V

– Optional low-pass filter

– Overvoltage protection input

– 1.024 word data buffer (16 word depth buffer x 64 channels)

– Optional output coding

– Power up in auto-scan mode with a gain of 1

APPLICATIONS

– Factory automation

– Process control

– Laboratory Instrumentation

– Machine monitoring

– Data Acquisition

Functional Characteristics

At +25°C and rated power supply conditions (unless otherwise noted)

Features

– 64-bit high voltage output

– High current driver (600 mA sink current)

– Inrush current auto shutdown protection option

– Thermal shutdown protection option for driving incandescent lamps or inductive loads

– High breakdown voltage (55 V)

– Output clamp diode for inductive flyback protection

– Compatible with intelligent I/O controllers

– Built-in test logic for fault isolation

– Highly reliable DIN-type I/O connectors

– 8-, 16-, or 32-bit transmission

– Dual Eurocard form factor

– Separate board address decoding for control and data registers

– Optional pull-up resistors for electronic switch outputs

– Optional TTL outputs

– Front Panel with Fault LED

Functional Features

Compatibility: Compatible with VMEbus specification.

Double height form factor.

Output Connector Type: Dual 64-pin connector DIN 41612.

Output Organisation Eight ports, eight bits wide.

Addressable to any address within the Short-Circuit Monitor or Short-Circuit Unprivileged I/O map. Control and Status Register (CSR) addresses are independently selectable.

Address Modifier Codes: Short-circuit supervisory or short-circuit unprivileged I/O access can be selected via jumpers.

Factory configured for short-supervised I/O access.

Addressing Scheme: Eight ports can be individually addressed on 8-bit, 16-bit, or 32-bit boundaries.

CSR’s separate board address decoder allows hardware control addresses to be grouped for software efficiency.

Data Transfer Bus: A16: D8. D16. D32

Built-in Test: This product supports offline and real-time fault detection and isolation. Offline mode can be enabled by writing the CSR Set Test Mode bit.

When test mode is enabled, all outputs are off. When test mode is enabled, all outputs are off.

Fault LED: The Fault LED is illuminated at power-up and extinguished under program control after a successful diagnostic.

Output Functions: High current driver (600 mA sink current) outputs designed to drive incandescent lamps and inductive loads.

No external current limiting or warm-up resistors are required. Due to the presence of cold filament inrush currents, it is recommended that the output driver drive only one lamp.

However, if a single wire must drive more than one lamp, another driver must be connected in parallel.

If a single output must drive more than one bulb, it is recommended that the VMIVME-2131 (current source/sink)

or VMIVME-2130 (current source only) if the application allows.

Features

– 64 different or single-ended inputs

– 16-bit analogue-to-digital conversion (A/D)

– Software selectable conversion rate (up to 100 kHz)

– Programmable selection of scanning 1. 8. 16. 32 or 64 channels

– Continuous digitisation of selected input channels and storage of results

– Three trigger modes

– Software triggered

– External trigger

– Interval timer trigger

Three scanning modes

-Automatic scanning

-Single scan

-Random access

– Programmed VME interrupts

– User programmable interval timer

– Software programmable gains of 1 and 10

– External trigger synchronises multiple boards simultaneously

– Jumper-selectable A/D ranges of 0 to +5V, 0 to +10V, ±2.5V, ±5V, and ±10V

– Optional low-pass filter

– Overvoltage protection input

– 1.024 word data buffer (16 word depth buffer x 64 channels)

– Optional output coding

– Power up in auto-scan mode with a gain of 1

APPLICATIONS

– Factory automation

– Process control

– Laboratory Instrumentation

– Machine monitoring

– Data Acquisition

Functional Characteristics

At +25°C and rated power supply conditions (unless otherwise noted)