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March 27, 2025 BY
IN GE

Fanuc IC200PWR002 Module Extended Power Supply Unit (PSU) for Versamax Series

Description.

The IC200PWR002 is a power supply module that is part of the VersaMax product family, currently part of Emerson Automation and previously manufactured by GE Intelligent Platforms. The power module is a 24 VDC extended power supply with an input supply voltage of 18-30 VDC. it has output voltages of 5 VDC and 3.3 VDC, and a total output current of 1.5 A, with a maximum of 1.0 A at 3.3 VDC and 1.5 A, and a maximum at the 5 VDC output.

About the IC200PWR002

The IC200PWR002 is a power supply module that is part of the VersaMax platform, which was previously manufactured by GE Intelligent Platforms (GE IP) and is now produced by Emerson Automation. This module can be used as a mains power supply or a power booster carrier. When used as a main power supply, this module is used to power a VersaMax that is enabled for installation and connected to a backplane. When used as a booster power supply, this module is mounted on the booster bracket and is used as a supplemental power supply. It has five screw type terminals located on the bottom front panel of the module. The two terminals on the left side are the www.cniacs.com DC and -DC terminals, while the third terminal is the ground terminal. The last two terminals do not need to be connected.

The IC200PWR002 is designed to operate from an input supply voltage of 18-30 VDC with a nominal supply voltage of 24 VDC.The module has an input power of 11 watts and a hold-up time of 10 milliseconds. Its inrush current is rated at 20 amps with a maximum duration of 6 milliseconds at 24 VDC and a minimum duration of 25 amps for 6 milliseconds at 30 VDC. Module output characteristics include output voltages of 5 VDC and 3.3 VDC with an output current of 1.5 amps, maximum at 3.3 VDC, and 1.0 amps at 5 VDC, provided that the output current does not exceed the maximum output of 1.5 amps. The power module is also fitted with internal short circuit, overload and reverse polarity protection.

This power supply module is primarily used with VersaMax I/O modules, Network Interface Units (NIUs), and Central Processing Units (CPUs).

The GE Fanuc IC200PWR002 Extended Power Supply Module is used to power backplane devices such as the I/O, CPU, and NIU. If it is connected to the network interface unit (NIU) or the central processing unit (CPU), the expansion power supply module acts as the main power supply. However, if it is connected to a power booster bracket, the extended power supply module acts as the auxiliary power supply.The output and input voltages of the IC200PWR002 module require a DC power supply. It has output ratings of 3.3 volts DC and 5 volts DC, and an input rating of 24 volts DC.The output voltages of 5 volts DC and 3.3 volts DC determine the output current of the module, which should not exceed 1.5 amps. It has an extended power supply option, but no isolated power supply.
March 27, 2025 BY
IN A-B

A-B 6180P-12KPXP AC Powered Display Computer

Description.

The 6180P-12KPXP display computer is an AC-powered display computer for the Allen-Bradley/Rockwell Automation VersaView Plus series.

It operates on voltages ranging from 90 to 264 volts AC and frequencies from 47 to 63 Hz. The 6180P-12KPXP display computer has two serial ports and two Ethernet ports.

The 6180P-12KPXP display computer can be controlled from a keyboard and touch screen.

About the 6180P-12KPXP

The Allen-Bradley 6180P-12KPXP VersaView Plus 1200P Integrated Display Industrial Computer is a performance package that has only one keyboard for input.

It has a 12.1-inch screen that is a 256K-colour colour matrix thin-film transistor type with an inherent resolution of 800 x 600 and a display area of 9.7 x 7.3 inches.

The screen response time is 20ms and the viewing angles are 40º vertical and 60º horizontal. This computer’s keyboard input consists of alphanumeric keys and 36 programmable function keys.

This computer is rated for NEMA 1/4/12 type and IP66. and uses panel mounting.

The entire 6180P-12KPXP computer weighs approximately 16 kg or 35.3 lbs. and measures 12.25 x 19.01 x 8.86 inches.

The processor installed on this computer is an Intel www.cniacs.com Core Duo processor at 2 GHz and the system chipset is an Intel 945GME.

Its memory is expandable as it has 2 dual-channel DDR II DIMM slots that can handle up to 2 GB of memory per slot for a total of 4 GB.

The 6180P-12KPXP computer also features a variety of I/O ports, notably 2 serial ports, 1 DVI port, 2 front USB ports, 4 rear USB ports, and 1 parallel port, as well as 2 RJ45 Ethernet LAN ports capable of handling 10/100/1000 Mbps speeds. To prevent overheating.

This computer is fitted with a processor heatsink, two chassis fans and a PSU fan. It is also equipped with three audio jacks, which are microphone jack, line jack and line out jack.

Installed status indicators include Power/Standby, NumLock, Caps Lock and HDD/ODD/FDD activity.

There are also three disk drives, a slim DVD-RW disc drive, a floppy drive and a 3.5-inch 160 GB hot-swappable hard drive with a SATA interface.

The 6180P-12KPXP has an AC power consumption of 144 VA (1.4 A at 100V rms and 0.6 A at 240V rms).

It has an autoranging input voltage of 90-264 V AC and a line frequency of 47-63 Hz. At peak, it has 1 g of operating vibration and 2 g of non-operating vibration.

Its operating shock is 15 g and non-operating shock is 30 g at 1/2 sine and 11 ms.
March 27, 2025 BY
IN ABB

ABB Distributed Control Systems DCS Compact Product Suite Compact HMIs

Compact HMI 6.1.1-1 released.

Compact HMI version 6.1.1-1 reinforces ABB’s commitment to providing safe and reliable operation. To extend the lifecycle of new and existing installations, www.cniacs.com Compact HMI 6.1.1-1 was released with the following news:

-OPC UA Connect support.

-OPC UA Client Connect service

-Event History

-Windows operating system support

Compact HMI 6.1.1.1 supports Windows 10 LTSC 2021/Server 2022 in addition to Windows 10 2016 LTSC, Windows Server 2016. Windows 10 2019 LTSC and Windows Server 2019.

Compact HMI 6.1.1-1 is now available!

Compact HMI 6.1.1-1 Release Highlights:

OPC UA Connectivity

This OPC UA Client enables external OPC UA-Servers (e.g. PLCs) to be connected and integrated into the Compact HMI, so that the Compact HMI can read data from these OPC UA-Servers or write data to these OPC UA-Servers.OPC UA Connect is currently only supported for OPC UA-Data Access (DA).

OPC UA Client Connect Service

The new OPC UA servers enable external OPC UA-clients to connect to the Compact HMI to read and write OPC data.The OPC UA Client Connection Service is typically used to exchange data between the Compact HMI and third-party software applications for reporting and data analysis.OPC UA Connect currently supports only OPC UA-Data Access (DA).

Event History

Event History is intended to be an optional replacement for the previous Event Storage Service and provides essentially the same functionality for processing messages from services, connected systems, and workspace clients. Like the Event Storage Service, the Event History Service handles short-term storage of events and offers the following benefits:

Supports redundancy without the limitations of two service providers

Supports events for three months and the current month Approximately 5 million events can be stored with no limit per category.
March 27, 2025 BY
IN ABB

ABB PLC Automation Programmable Logic Controller PLC Type AC500

AC500

With the AC500 PLC series, we offer a reliable and powerful platform for designing and creating scalable, cost-effective and flexible automation solutions.

Scalable

The scalability of the AC500 PLC is achieved by offering a wide www.cniacs.com range of devices to design and realise configurations suitable for simple control tasks or complex automation solutions.

The AC500 PLC provides flexibility of movement through an integrated software.

Cost effective

The AC500 PLC series includes a variety of CPUs, I/O modules, communication modules, communication interface modules and accessories.

The ‘all modules on any CPU concept’ combined with our lifecycle policy helps our customers to react quickly, flexibly and economically to new requirements.

Flexibility

Our AC500 is designed to provide the ease of use, safety and reliability needed to extend automation systems to meet new challenges.

Memory, performance and network capabilities mean more functionality, advanced visualisation, more comfortable operation – for better individual customer solutions.
March 27, 2025 BY
IN ABB

ABB PLC Automation Programmable Logic Controller PLC Type AC500 CPU

AC500 CPU

We built the AC500 CPU to provide the ease of use, safety and reliability needed to adapt automation solutions to new challenges.

Dynamic and Adjustable Interaction

We have designed a range of fast processing CPUs with the right memory, performance and networking capabilities.

New demands can be easily met using one integrated software across the entire AC500 PLC range.

Networking

Our AC500 CPUs have a wide range of www.cniacs.com communication possibilities, including on-board and expansion modules that can be integrated into various combinations to form powerful network nodes for the smallest to the largest automation solutions.

These features link your automation solution to the past, keeping it up-to-date and leading it into tomorrow.

Applications

AC500 can be used in many different applications such as wind farms, solar trackers, high capacity circuit breaker production, large ships, tunnel automation, traffic control, packaging, printing presses and robotics.

By choosing the AC500 platform, you can participate in our expertise in different applications and software libraries (e.g. motion control, water, solar, drives).

The ABB AC500 CPU is a core component in industrial automation control systems, providing simple, safe and reliable automation solutions to meet new challenges.

It is flexible and scalable, offering a wide choice of models such as PM571. PM581 and PM591 to meet different control needs.

These CPUs are highly integrated, providing LCD display, operation buttons, SD card expansion port and two integrated serial communication ports for easy programming, data exchange and communication.
March 27, 2025 BY
IN ABB

ABB Distributed Control System – DCS AC700F Controller

AC 700F Controller

The AC 700F controller has a small footprint and supports PROFIBUS. it can support up to eight direct I/O modules.

As a member of Freelance, the AC 700F controller offers many advantages over PLC-based solutions:

Distributed process control systems (DCS) simplify engineering, commissioning and maintenance of automation systems.

Visualisation is directly integrated making configuration particularly easy.

The AC 700F can also be extended by Profibus remote I/O units. In addition, field devices can be connected to the AC 700 F. Due to the flexibility of Ethernet and the small footprint, the AC 700 F can also be used as a competitive intelligent Ethernet I/O in junction boxes in non-hazardous areas of the site.

The ABB AC700F is a controller from ABB that is part of the Freelance 800F distributed control system (DCS).The AC700F controller is suitable for automation applications that are smaller in size, require less reliability, and have a large number of control devices with a high degree of independence.

The AC700F controller has the following features:

Affordable: The AC700F controllers are cost-effective PLC controllers that provide a more affordable Micro DCS solution for small point-size process control applications.

Seamless Integration: The AC700F controller can be seamlessly integrated into the Freelance 800F system via Ethernet, making it easy for users to expand and upgrade the system.

Programming and Configuration Tools: The AC700F www.cniacs.com controller adopts the same integrated programming and configuration tools as the AC800F controller, i.e., Freelance Engineer Station (Control Builder F), which is convenient for users to carry out programming and configuration.

Data Integration: The data from the AC700F controller can be seamlessly integrated into the main system DCS operator station without the need for additional HMI programming, improving system integration and efficiency.

In addition, the AC700F controller is suitable for applications where the number of points with a single controller does not exceed 300 I/Os. It is compact and can be configured with local I/O modules. The entire project configuration can be achieved through only one tool, which is convenient for users to configure and maintain the system.

In short, the ABB AC700F controller is an affordable, easy to integrate and configure the controller, suitable for small point size process control applications, can help users to improve the level of control and efficiency of automation systems.
March 27, 2025 BY
IN Hitachi

Hitachi 500NMD01 Compact Modem

– Integrated Managed Layer 2 Switch

– 24… 60 VDC supply voltage

– 4x 10/100 BaseT (RJ45. auto-negotiation)

– 1x SHDSL port for copper lines

– Redundant topology via Spanning Tree Protocol (STP/RSTP/MSTP)

– 1x RS-232/ RS-485 interface for tunneling of serial protocols

Applications

The DIN-rail mountable 500NMD01 is a managed plug-and-play Layer 2 switch that offers

– 4 Fast Ethernet auto-negotiating RJ45 ports with automatic MDI/X (automatic cross detection and correction)

– 1 2-wire SHDSL port for dedicated copper cable

– 1 RS-232/ RS-485 interface for tunneling of serial protocols

The switch provides a redundant topology via Spanning Tree Protocol (STP/ RSTP/ MSTP). It supports VLAN framing and serial www.cniacs.com data tunnelling.

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

The SHDSL port can be used for interstation interconnections up to a maximum distance of 25 km (0.8 mm diameter copper cable).

The SHDSL interface connects to any EDS500 SHDSL-compatible device, including the 560NMS24 and 560NMS34. as well as any EFM-based SHDSL device.

Features

For documentation purposes, the Ethernet ports are labelled 1 to 4 and there are no specific uplink ports.

All ports are functionally identical, and the SHDSL port is connected via a pluggable threaded connector.

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

The switch learns the Ethernet address by analysing incoming frames and stores it in a lookup table (up to 2048 entries).

used to forward frames only to the correct port. If it is a broadcast or multicast, or if the destination address is not found in the lookup table, the

then the received frame is forwarded to all ports other than the receiving port. If an incoming frame with a specific source address does not refresh the entry in the lookup table, the

entry will age out in up to 304 seconds (by default, this value is configurable).

For 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 500NMD01 uses a wide-range power supply that operates from 24 to 60 V. The switch can be configured to operate on a wide-range power supply.

The switch itself, the Ethernet ports, as well as the SHDSL connection, the RS-232 interface, and the Extended Bus Interface (Ext) are hot-swappable.
March 27, 2025 BY
IN Advantest

Advantest D3186 High Performance Pulse Code Pattern Generator

Description:

The Advantest D3186 is a high-performance pulse pattern generator that generates seven types of pseudo-random (PRBS) patterns from 27-1 to 231-1. programmable (WORD) patterns.

Programmable (WORD) patterns, up to 8M bits, or frame patterns for SDH or SONET structures, at speeds ranging from 150 Mb/s to 12 Gb/s.

In addition, by combining the D3186 with the D3286 BER detector, it is possible to build a system for evaluating the BER of ultra-high-speed optical communication devices and compound semiconductors.

With the D3186. you can choose a built-in high-precision synthesized clock generator. Sixteen types of frequency memories are provided for fast frequency setting.

For PRBS mode, the marker ratio can be changed between www.cniacs.com 8 values. Payload type can be selected from WORD, PRBS and CID for FRAME mode.

ALTERNATE mode is available and can be switched on 2 modes (WORD and FRAME) to perform measurements.

Key Points:

Built-in high-precision synthesized clock generator

16 frequency memories are provided for fast frequency setting.

For PRBS mode, the marker ratio can be changed between 8 values.

ALTERNATE mode available

GPIB Features

Built-in floppy disk

Excellent waveform quality

Generation of SDH/SONET frame patterns

Large memory

Multi-channel output

Output waveform crosspoint variables

Burst signal output

Fiber optic loop test

Master/Slave

Specifications:

Frequency range: 150 MHz to 12 GHz (option 10), 150 MHz to 12.5 GHz (option 13)

Frequency setting resolution: 1 kHz

Frequency stability: ±10 ppm/year

Load impedance: 50 ohms

Frequency accuracy: 0.01 %

Output impedance: 50 ohms

Operating temperature: 0°C to +40°C, +20°C to +30°C (Option 72)

Operating humidity: 40% to 85% RH

Storage temperature: -20°C to +60°C

Storage humidity: 30% to 85% RH

Power supply: AC 100 V to 120 V, AC 220 V to 240 V, 48 to 63 Hz

Power consumption: 550 VA maximum

Mass: max. 42 kg

External dimensions: approx. 310 (H) X 424 (W) X 550 (D) mm
March 27, 2025 BY
IN Advantest

ADVANTEST V93000 Wave Scale™ RF Card

ADVANTEST’s Wave Scale™ generation of RF channel cards enables the V93000 single scalable platform to achieve industry leading parallelism and throughput in testing virtually all RF and mixed-signal semiconductor devices used in wireless communications. These cards empower the V93000 platform to conduct highly parallel multi-site and in-site parallel testing, achieving unprecedented performance.

All-in-One Test Solution

The flexible Wave Scale RF card is capable of testing the RF SoCs that drive LTE, LTE-Advanced and LTE-A Pro smart phones as well as LTE-M, WLAN, GPS, ZigBee, Bluetooth and IoT wireless applications.  In addition to handling today’s market requirements, it is designed with the extendibility to address projected technology changes toward the future of 5G networks.

Multi-Site and In-Site Parallel Testing

The Wave Scale RF uses an advanced architecture, allowing it to exceed the capabilities of traditional RF test solutions. 

While other systems test one RF standard per site at a time, www.cniacs.com this card enables simultaneous testing of multiple standards or multiple paths within each DUT.  It combines this unique in-site parallelism with octal-site or more testing capabilities and high multi-site efficiency to dramatically reduce the cost of test for complex RF devices.

High-Volume Capabilities

With four independent RF subsystems per board, the Wave Scale RF card can handle the individual stimulus and measurement frequencies needed to test the full spectrum of devices used in wireless communications. Each RF subsystem has eight ports, which fan out the RF signal, and up to four independent measurement instruments.  

With this configuration, each of the four RF subsystems can be used across as many as eight sites to run receiver and transmitter tests simultaneously with all internal RF paths also tested in parallel.  

The system can handle a total of up to 32 sites per card for IoT, Bluetooth and other devices. The innovative V93000 test processor controls and synchronizes the parallel and independent operation of all instruments.

Each of the card’s 32 RF ports can support up to 6 GHz for a bandwidth of 200 MHz. Additionally, internal loopback and embedded calibration standards contribute to the system’s highly integrated architecture.
March 27, 2025 BY
IN Advantest

ADVANTEST V93000 EXA Scale – The New Generation

The Single Scalable Test Platform

In the age of IoT, 5G and artificial intelligence, more than half of all the microchips manufactured in the world are tested by our equipment. As the industry’s leading manufacturer of automated test systems for semiconductor devices, we continuously revolutionize market standards and enable customers to shape their digital future.

Our V93000 platform addresses the latest industry challenges and enables applications like Artificial Intelligence (AI) & High-Performance Compute (HPC), medical devices, Advanced Driver Assistance Systems (ADAS), making the world safer, faster and our lives easier.

Thanks to the platform’s scalability and compatibility over multiple generations, V93000 is future proof and saves cost. The all-in-one platform covers a variety of different solutions like RF, digital, power and analog.

Large Installed Base

Staying focused on the single scalable platform strategy, Advantest has developed a significant installed base of V93000 test systems in both engineering and high-volume manufacturing. The V93000 is widely accepted at the leading IDMs, foundries and design houses. Outsourced IDMs and fabless companies find the V93000’s test capacity installed in all major OSATs worldwide.

V93000 EXA Scale – The New Generation

The V93000 EXA Scale™ SoC Test Systems are targeted www.cniacs.com at advanced digital ICs up to the exascale performance class. The EXA Scale generation of the V93000 provides solutions that enable new test methodologies to meet the challenges of these advanced digital devices and deliver lower Cost-of-Test (CoT) and faster Time-to-Market (TTM).

Today’s most advanced semiconductor processes allow for technology transformations that enable real-time integration of data from a countless number of sources such as IoT and handheld devices, automobiles and large servers to name a few. As mobile processors, Advanced Driver Assistance Systems (ADAS) processors, high-performance computing (HPC) and artificial intelligence (AI) ICs evolve, the amount of data being processed and the device power requirements continues to grow exponentially. Along with these advancements, new testing challenges, including exploding scan-data volumes, extreme power requirements, fast yield-learning, high pin-count, and high-multisite configurations need to be addressed. Advantest’s new V93000 EXA Scale generation addresses these challenges with innovative advancements on the proven V93000 architecture.

The V93000 EXA Scale system employs Advantest’s patented Xtreme Link technology, a communication network designed specifically for automatic test equipment (ATE). The technology provides high-speed data connections, embedded computing power, and instant card-to-card communication.

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