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March 31, 2025 BY
IN A-B

A-B 2711-K10G1 PanelView Standard Operator Interface Terminal

Description.

The Allen-Bradley 2711-K10G1 Operator Terminal is designed and manufactured as part of the Allen-Bradley/Rockwell Automation Panelview 1000 Series of standard operator terminals.

It has a 10-inch wide screen and supports only greyscale graphics.The 2711-K10G1 Operator Terminal operates on 85 to 264 volts AC at 47 to 63 Hz.

The communication port is a remote I/O communication port.The 2711-K10G1 operator terminal has 256 KB of memory.

About the 2711-K10G1

Allen-Bradley’s 2711-K10G1 is part of the Panelview 1000 series and is designed for users to efficiently connect to machines.

Operators can easily enter information and commands through the keypad. There is a clear 10.1-inch greyscale display.

greyscale display. Each module is housed in a durable NEMA 12/13 or 4X type enclosure and uses 85-264 VAC input power.

A printer (RS-232) port and remote I/O port are available for adaptive communications.

The Allen-Bradley 2711-K10G1 PanelView Standard www.cniacs.com Operator Interface Terminals are the high standard in control system automation.

They are hard at work around the world supporting the automotive, food and beverage, pulp and paper, water and wastewater treatment, and petrochemical industries.

Each 2711-K10G1 standard terminal is UL, cUL/CSA, and CE listed.

They are rated for NEMA 4X (IP54. IP65) and approved for Class 1 Division 2 (flat panel only) operation.

These terminals are designed and engineered for scalability, reliability and compatibility to reduce cost of ownership and increase productivity.

This 2711-K10G1 device displays critical alarm data and records and displays important data that triggers an alarm.

When an alarm is recognised, the operator is notified to troubleshoot the problem.

The 2711-K10G1 supports up to five languages in a single application, switching between English, French, Italian, German, and Spanish text in run mode without the need for an ATA memory card.

Specifications are as follows

7.2 lbs (3.3 kg)

11 inches (H) x 17 inches (W) x 5 inches (D)

0 to 55°C (32 to 131°F)

Technical Description of the 2711-K10G1

Remote I/O communications and RS-232 printer port.
March 31, 2025 BY
IN Motorola

Motorola MVME5500 Single Board Computers

The MVME5500 is the flagship of our VME product line, delivering higher levels of performance in a single VMEbus slot.

Higher levels of performance in a single VMEbus slot:

1GHz MPC7457 PowerPC® processor

512 KB on-chip L2 cache and 2MB L3 cache

AltiVec coprocessor for high-performance computing applications

Two banks of soldered flash (32MB and 8MB)

Dual independent 64-bit PCI bus and PMC sites with bus speeds up to 66 MHz

Gigabit Ethernet interface and an additional 10/100BaseTX Ethernet interface

64-bit PCI expansion mezzanine connector for up www.cniacs.com to four additional PMCs

I/O compatible with MVME51xx series

Processor PMC (PrPMC) support

SMART Embedded Computing’s MVME5500 features the MPC7457 processor running at 1 GHz with memory, dual independent local buses and I/O subsystems.

The powerful Marvell system controller supports a 133 MHz host bus and a 133 MHz SDRAM memory bus, a perfect match for the high-speed processor.

To match system I/O with superior processor performance, the MVME5500 offers dual 64-bit, 33/66 MHz PCI buses.

Each PCI bus has a PMC site that supports cards running at 33 or 66 MHz.

The Universe II VME interface and PMCspan connector are isolated from the PMC site on the dedicated 33 MHz PCI bus segment, so both PMC sites can operate at 66 MHz.

The MVME5500 also offers a Gigabit Ethernet interface, a 10/100BaseTX Ethernet interface and two serial ports.

All of this adds up to a well-balanced, high-performance subsystem that delivers unrivalled performance.
March 31, 2025 BY
IN Hitachi

Hitachi 500LTD01 Isolated Line Transformer

Isolated line transformers for current isolation in transmission lines

Frequency range: 0.3 kHz to 3.4 kHz

Ratio 1:1

Insulation test voltage 10 kV

Optimised for line impedances of 600 Ω

Insulation resistance: 10000 MΩ at 500 V

Applications

The line transformer 500LTD01 is designed for www.cniacs.com FSK channels in the 50 Bd to 2400 Bd range.

It is used to isolate and protect the RTU500 series modems 23WT23. 23WT25 and 560FSM10 from remote control lines.

In addition, it can be connected to other data terminal equipment.

It is optimised for wire-first communication with a frequency range of 300 Hz to 3400 Hz and a line impedance of 600 ohms for the above modems.

All three types of modems allow high-resistance interleaving on lines such as party lines and multisplit lines.

This is because the line transformer has no additional load on the line.

In configurations using full duplex communication channels, two line transformers are required, one for the transmit direction and the other for the receive direction.

Features

The line transformers can withstand isolation voltages of:

> 10 kV, 50 Hz, 10 sec.
March 31, 2025 BY
IN Motorola

Motorola MVME2400 Series VME Processor Module

♦ PowerPC 750™ 32-bit microprocessor

♦ 32KB/32KB Level 1 Cache

♦ 1MB backside L2 cache

♦ 32MB to 512MB on-board ECC SDRAM

♦ Up to 1MB on-board firmware capacity

or user-specified requirements

♦ 8MB on-board flash memory to meet user-specified requirements

♦ On-board debug monitor diagnostics with self-test function

♦ Two 32/64-bit PMC expansion slots with front panel and P2 I/O

♦ 64-bit PCI expansion mezzanine connector

♦ 8K x 8 NVRAM and Clock Replaceable Backup Battery

♦ One asynchronous serial debug port

♦ Four 32-bit timers, one 16-bit timer watchdog timer

♦ 10/100Mb/s Ethernet interface

♦ 4-stage requester, 7-stage interruptor, and 7-stage interrupt handler for VMEbus

The MVME2400 series VME boards offer the performance of Motor ola’s PowerPlus II architecture and can be fully customised to meet the needs of

your applications requiring two PCI mezzanine cards (PMCs). Flexibility

The MVME2400 provides an excellent base platform that can be quickly

and easily customised for a variety of industry-specific applications.

Utilising Motorola’s low-power, high-performance www.cniacs.com PowerPC750 microprocessor, the Peripheral Component Interconnect (PCI) bus for onboard

peripherals, processor/memory bus to PCI bus bridges and VME interfaces, the

The MVME2400 processor module packages optimal levels of flexibility and performance into a single VME slot

IEEE P1386.1-compliant PMC slot The MVME2400 features dual PMC ports supporting

front panel and P2 I/O. The following are P2 I/O based PMCs

PMC committee recommendations for PCI I/O when using the

VME64 expansion connector will be compatible with pin-outs

MVME2400 in addition to providing high performance expansion I/Os

IEEE P1386.1 compliant PMC ports form a common architecture for future generations.

Simply replacing the PMC meets changing I/O needs while reusing the same base platform, reducing long-term cost ownership. 
March 31, 2025 BY
IN A-B

A-B 6155R-14SXPH Standard Model Non-Monitor Computer

Product Description.

The Allen-Bradley 6155R-14SXPH computer is a VersaView series compact non-monitor computer.

It is a standard model non-monitor computer with an 80 GB hard drive and 2 GB RAM.

It has Ethernet ports, USB ports, and a mouse or keyboard port.

The 6155R-14SXPH non-display computer has an operating temperature of 0 to 50 degrees Celsius and a storage temperature of -20 to 60 degrees Celsius.

About the 6155R-14SXPH

The Allen-Bradley 6155R-14SXPH is a VersaView 1400R www.cniacs.com standard non-display C-Series industrial computer with 14 slots.

Specifically, it has 2 half-length ISA slots and 3 PCI slots, as well as 3 full-length ISA slots, 4 PCI slots, and an internal CompactFlash connector.

The computer’s ports include 1 parallel printer port, 2 serial COM ports, and 1 10/100 RJ45 Ethernet port,

1 USB 1.1 port, 1 PS/2 port for keyboard or mouse, and 1 VGA port.

It also has an audio port, a 3.5-inch floppy drive and a CD drive.

It has a 2 GHz Intel Pentium 4 Celeron processor and 256 MB of RAM.

It is expandable up to 2 GB of memory, consisting of two DIMMS with 1 GB of memory. The computer requires an external monitor.

It has an auto range AC input voltage of 90-264V AC, a line frequency of 47-63 Hz, and power consumption of 150V or 1.5 A @ 100V RMS and 0.63 A @ 240V RMS.

Operating temperatures are 0-50 °C and non-operating temperatures are -20-60 °C. The computer can also withstand 15 g of heat. The computer can also withstand operating shocks of 15 g and non-operating shocks of 30 g (both 11 ms ½ sine waves), and 1 Grms of random operating vibration.

and 1 Grms of random operating vibration. The computer’s enclosure is rated NEMA Type 1.

Technical Description of the 6155R-14SXPH

VersaView Non-Display Series Terminal with 2 GB of RAM and 80 GB of hard drive storage with 120-240V AC or 9-36V DC input power.
March 31, 2025 BY
IN GE

Fanuc IC200ALG331 4-Point Analogue Voltage/Current Input Module

DESCRIPTION

The IC200ALG331 is a 4-point analogue voltage/current input module from the VersaMax I/O family.

Formerly manufactured by GE Intelligent Platforms, it is now part of Emerson Automation.

The module has four (4) individually isolated output channels that provide 1-20 mA and /-10 VDC output signals with 16-bit resolution and a maximum update rate of 7.0 ms.

The module is fully software configurable with selectable output hold or default last operating state functions.

About the IC200ALG331 The IC200ALF331 is an analogue output module for the VersaMax I/O platform, which consists of compact, versatile, and scalable distributed I/O modules.

This part number represents a 16-bit voltage and current configurable module with four (4) individually isolated output channels.

This module is used to drive and regulate final control elements (FCEs) such as control valves for flow control, variable frequency drives (VFDs) for motor speed and torque control,

dampers and shutters in facilities, and other equipment equipped with positioners in HVAC applications.

The module can also be used to relay analogue www.cniacs.com signals, which may be the result of continuous calculations within the logic of a programmable logic controller (PLC).

displayed by panel meters and recorded by data loggers. It can also be used to interface with a signal isolator or signal splitter, to

or to cascade a reference signal to another single-loop controller or PLC for more complex controller architectures, such as cascade control.

The IC200ALG331 has output channels that can be configured via software to generate +/-10 VDC or 4-20 mA output signals.

Each channel has a maximum update rate of 7ms and an accuracy of +/-0.1% of full scale maximum.

Each channel is also capable of configuring and detecting high/low limits, over/under ranges, open circuits, loss of field power, non-volatile memory faults, and

as well as individually assigning output behaviour for PLC stop or module errors (such as holding the last state or dropping to zero (0)), which can also be modified.

Since the IC200ALG331 is fully software configurable, there is no need to install a terminal jumper to the module to set the operating mode.

The GE IC200ALG331 module is a 16-bit analogue output module. It is equipped with 4 isolated channels.

It is part of the GE Fanuc Versamax module family. The main function of the module is to control multiple analogue devices at once.

The module can be easily configured using only software. There are no jumpers or switches in this output module variant.

The operating voltage range of this module is between -10 and 10 volts DC. The current rating of the module is 4 to 20 mA.

The analogue output module updates itself in a 7 millisecond time period. It draws a total of 15 milliamps of current from the 5-volt bus.
March 31, 2025 BY
IN GE

IC200MDL930 8-Point Relay Output Module for VersaMax I/O Series

Description.

The IC200MDL930 is an 8-point relay output module for the VersaMax I/O series, formerly manufactured by GE Intelligent Platforms and now part of Emerson Automation.

The module has eight (8) individually isolated normally open (N.O.) or type A contacts rated for 0 to 125VDC, 5/24/125VDC nominal output voltage and 0 to 265VAC (47 to 63Hz),

120/240VAC nominal output voltages and output contacts rated at 2.0 amps.

About the IC200MDL930

The IC200MDL930 is an eight (8) channel output module that is part of the VersaMax I/O platform.

Formerly offered by GE Intelligent Platforms (GE IP), it is now part of Emerson Automation.

The module is equipped with individually isolated relay output channels in normally open (N.O.) or form A contact positions.

The inbuilt relays of the module are of fixed coil, moving armature type with relay contacts made of silver alloy.

These contact outputs are suitable for energising electrical loads operating at different voltage categories, in particular at AC voltage frequencies from 47 to 63 Hz, 0 to 125 VDC and 0 to 265 VAC.

The IC200MDL930 contact output is essentially a dry contact output. It requires an external supply voltage source to conduct the proper voltage to the connected electrical load.

It can be used for resistive or conductive loads, but it is recommended that conductive loads, external protection or suppression circuits (such as fuses) be installed.

Output contacts are rated at a minimum of 10mA per point; 2.0A for 5 to 265 VAC, max; 2.0A at 5 to 30 VDC, 0.2A at 31 to 125 VDC, max.

All current ratings are resistive load ratings. www.cniacs.com In addition, the nominal external supply voltage ratings for the contact outputs are 5/24/125 VDC and 120/240 VAC.

The IC200MDL930 has a maximum backplane current consumption of 245 mA when all outputs are energised.

The module is equipped with a separate channel indicator to describe the energised state of each output channel.

It also has a separate module OK LED indicator to indicate the active power received by the module from the backplane power supply.

The IC200MDL930 module is an 8-point output module manufactured by GE Fanuc. It is part of the Versamax family.

The output points of the module are individually isolated. The output module draws 245 mA of power from the baseboard with all outputs active.

The IC200MDL930 module is fully compatible with AC and DC loads. Each of the module’s eight points has its own LED indicating field power through those points.

The module contacts are closed by default during module activation. At this time the output bit is set to 1. The module is easy to install when using the rack mounting method on a baseboard.

The output module is certified to CE, cULus and other industry standards. It is used for global settings.
March 31, 2025 BY
IN CTI

CTI 2500-ADP1 Analogue Wiring Adapter

2500-ADP1 Analogue Wiring Adapter for Series 500

Description of the 2500-ADP1

The 2500-ADP1 is a wiring adapter that converts 500 Series analogue field wiring from the basic format to the 40-pin connector used on CTI 2500 SeriesTM analogue input/output modules.

The 2500-ADP1 is a wiring adapter that converts the analogue field wiring of the 500 Series from the basic format to the 40-pin connector used on CTI 2500 SeriesTM analogue I/O modules.

Converts analogue field wiring from basic format to the 40-pin connector used on the CTI 2500 SeriesTM analogue I/O modules.

This allows for quick upgrades of existing 500 Series systems to the newer, more suitable 2500 SeriesTM.

Features

The 2500-ADP1 cable allows for the following conversions

field wiring:

– 500-5037A 8-channel analogue input connector to CTI 2558 8-channel analogue input 40F connector.

– 500-5047A 8-channel analogue output connector to CTI 2562 8-channel analogue output 40F connector.

Instructions

Method A – Installing a New Module into an Existing 500 Series I/O Adapter

Chassis

1. Disconnect power to the Series 500 chassis

2. Remove the 500-5037A/47A to be upgraded. 

3. Install the 2500-IADP into the slot where the 500 module was removed.

4. Configure the 2558/2562 to match the 500 module to be replaced .

5. Install the 2558/2562 into the 2500-IADP .

6. Connect the edge card connector www.cniacs.com of the 2500-ADP1 to the existing 5037A / 5047A field wiring connector.

(The screen label on the 2500-ADP1 indicates a 5037A / 5047A field wiring connector).

Connect the edge card connector of the 2500-ADP1 to the existing 5037A / 5047A field wiring connector.

(The screen label on the edge card connector shows pin 1 and pin A.)

7. Remove any 250 ohm resistors that may be installed in the 5037A / 5047A field wiring connector. 2558 / 2562 do not require these resistors.

8. Connect the 40F connector to the 2558/2562.

9. Restore power to the rack.
March 31, 2025 BY
IN Hitachi

Hitachi 560NMD11 DIN Rail Integrated Managed Switch

Applications

The DIN-rail mountable 560NMD11 is a manageable plug-and-play Layer 2 switch.

It offers four auto-negotiating Fast Ethernet RJ45 ports with automatic MDI/X (automatic cross detection and correction),

A two-wire SDSL port for dedicated copper cables and an SFP (Small Form Factor Pluggable) module slot for fibre optic transceivers.

Ethernet can be distributed within the station via the switch’s four RJ45 ports.

The SDSL port can be used to connect copper stations with a maximum distance of 20 km (0.8 mm diameter).

Depending on the SFP modules fitted, the device can achieve spans of up to 40 km over fibre-optic cables.

The switch provides a redundant topology via (fast) spanning tree protocol.

For documentation purposes, the Ethernet ports are labelled 1 to 4. The SDSL ports are connected via snap-in connectors.

There is no specific uplink port. All ports are functionally identical.

The link and speed status of each Ethernet port and SDSL port is indicated by the status indicators on the right (see ‘Connectors and Indicators’).

With respect to IEEE 802.1Q VLAN frames, the switch can be configured in VLAN or transparent mode.

In transparent mode, the switch does not change any frames or frame TAGs;

In VLAN mode, the switch can be configured to support multiple applications, such as trunks or access ports.

The switch can support quality of service if it uses IEEE 802.1p-compliant frame formats.

The switch can divide frames into up to four queues, which can be configured as priority-based queues or weighted fair queues.

The 560NMD11 uses a wide-range power supply and operates from 24 to 60 V. The switch itself, the Ethernet ports, and the Ethernet ports can be connected to the switch.

The switch itself, the Ethernet ports, as well as the SDSL connections, RS-232 interfaces, and SFP transceivers are hot-swappable.

Connectors and Indicators

The 560NMD11 switch consists of four equal RJ45 Ethernet ports, an SDSL transceiver,

one SFP transceiver slot, and two RS-232 connectors for configuring and transferring serial data.

Each RJ45 port can be connected to a Cat. 3 (10 Mbps) or Cat. 5 (100 Mbps) Ethernet cable with a maximum length of 100 metres. The cables can only be used for internal connections.

Crossover cables are not required because the RJ45 ports of the 560NMD11 switch support automatic MDI/X.

The SDSL interface can be www.cniacs.com connected to a customer-provided two-wire copper cable. 0.8 diameter copper cable has a maximum connection distance of 20 km and a transmission rate of 192 kbps.

Depending on the distance, the transmission rate can be configured up to 11 Mbps.

The status of the Ethernet and DSL interfaces can be monitored by two LEDs.

For the Ethernet port, these are located on the lower and upper part of the RJ45 socket.
March 31, 2025 BY
IN Woodward

Woodward CPC-II Electrohydraulic Current Pressure Converter

Features

 Actuators and self-cleaning valves are 4 times stronger with ‘sludge buster’ technology

 Patent-pending ‘Sludge Buster’ cleaning technology

 Advanced control algorithms and diagnostics

 Redundant optimum control configuration

 Same mounting base footprint as the CPC*

 Enhanced feature benefits:

 Removes 40 μm size dirt and reduces or eliminates filter/screen service work

 Removes sludge build-up without compromising operational integrity

 Industry-leading stability and buffer-free, precise throttle control

 Configuration flexibility to meet your system needs

 Easily upgrade your existing CPC* or Voith E360 I/H

CPC-II Upgrade Programme

(Current Pressure Converter, Generation II)

Maximise uptime with Woodward’s Dirt Buster www.cniacs.com technology Upgrade with Woodward’s CPC-II Electrohydraulic Current Pressure Converter

your Woodward CPC* or Voith E360 I/H throttle controller.

The CPC-II solves the turbine market’s number one reliability problem: oil contamination.

CPC-II:

 removes 40 μm sized dirt, reducing or even eliminating turbine control filter maintenance altogether!

 removes sludge build-up without compromising operational integrity

 features industry-leading stability and snubberless precision throttle control

 Easily upgrades existing CPC or Voith converters

The power of the CPC-II is combined with Woodward’s industry-leading control point algorithms, advanced diagnostics and PC-based service tools.

This powerful solution provides stable control during normal turbine operation and trouble-free control in the event of a plant failure.

By minimising process overshoot or undershoot conditions, you can maximise uptime and increase productivity.

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