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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.
March 27, 2025 BY
IN Advantest

ADVANTEST U3851 Cross Domain Spectrum Analyzer

The Cross Domain Analyzer U3800 Series is a vector and spectrum-signal analyzer with built-in two-channel RF input function. This is the industry’s first metrology tool that enables comparative measurement/analysis of the signals from two channels on the basis of their time, amplitude, phase, and frequency domains by simultaneous and synchronized measurement. 

This Cross Domain Analyzer has the following features and functions:

 ● Two-channel RF input and wide frequency range

 ● The best-in-class time domain analysis bandwidth of 40 MHz

 ● Vector operation that allows composition/decomposition

 U3800 Series allow the users to easily measure and analyze multiplexed/mixed/interfered signals so that complex signal analyses that are conven

tionally difficult to perform, such as multipath analysis, electromagnetic field decomposition, and inter-circuit interference, can be carried out. 

U3800 Series consists of analyzers applicable to www.cniacs.com a wide variety of fields such as broadcasting, telecommunication, and EMC.

A new field of RF measurement—Concept of Cross Domain

”We want to freely compare two RF signals in different analytical domains so that measurement and comparison of two signals that change with time, such as those in transient phenomena, modulating waves, and EMC noise can be achieved by means of a vector operation.” In order to satisfy such requirements, we have developed a measurement equipment that can easily measure, compare, and 

analyze true momentary signals, which is difficult in the case of conventional measurement equipments, by equipping it with a two-channel phase-locked loop vector measurement function and operation function.

Key performance of the U3800 Series

● World’s first two-channel simultaneous/parallel measurement in the analysis bandwidth (maximum: 40 MHz)

● Vector comparison with high sensitivity and wide dynamic range (pre-amplifier equipped as standard) 

● U3800 Series to support 9 kHz to 43 GHz of measurement frequencies

3 GHz Cross Domain Analyzer  U3841: 9 kHz to 3 GHz  

8 GHz Cross Domain Analyzer  U3851: 9 kHz to 8 GHz  

43 GHz Cross Domain Analyzer  U3872: 9 kHz to 43 GHz
March 27, 2025 BY
IN GE

Fanuc IC200GBI001 Network Interface Unit

About the IC200GBI001

The IC200GBI001 is a VersaMax communication module. The module is a Genius network interface unit that

allows VersaMax I/O modules to be installed in distributed I/O architectures.

The module is designed to hold up to eight (8) I/O modules per rack* and supports the installation of up to eight (8) racks with up to 64 I/O modules.

It supports transmission speeds of 153.6 kbaud for extended network configurations; 153.6 kbaud, 76.8 Kbaud, and 38.4 Kbaud are standard.

The IC200GBI001 can accommodate a large number of I/O points, especially discrete inputs up to 1024 points; 1024 discrete outputs.

128 bytes of analogue input memory and 128 bytes of analogue output memory.

This module can manage scans of 128 bytes per scan for network inputs and 128 bits per scan for outputs.

It consumes 250 mA @ 4VDC and 10 mA @ 3.3 mA.

The IC200GBI001 is compatible with a wide range of controller systems, as the Genius protocol is supported by previous and modern controller platforms.

Compatible control systems www.cniacs.com include the 90-70 series and the PACSystem RX7i and PACSystem RX3i.

The appropriate firmware version must be loaded onto the controller and the IC200GBI001 Genius Network Interface Module.

The IC200GBI001 is equipped with dual Genius connection terminals.

The upper terminal is used as the primary Genius connection point and the lower terminal is used as a redundant port.

These ports are designed to be connected in a daisy-chain topology with a terminating resistor installed at each end of the communication cable.

The appropriate resistor values on the serial 75 and 100 terminals are 120. 150. 1. or 2 ohms.

The GE Fanuc IC200GBI001 unit is a network interface unit or NIU manufactured by GE Intelligent Platforms/GE Fanuc.

It is part of the GE Versamax family and is designed to provide control functions for the different I / O modules connected to it.

When the NIU is installed with the correct firmware version, it can be compatible with multiple modules.

Examples include Genius Bus controllers, Series 90-70 PLCs, and PacSystems RX7i and Rx3i PLCs.

Any computer that can control the bus can be used as a host PC.

Each rack on the IC200GBI001 Network Interface Unit can hold up to 8 modules and supports up to 8 racks.

The **network inputs that can be scanned per bus are 128 bytes, **discrete I/O memory is 1024 points, and analogue I/O memory is 128 bytes.

The GE Fanuc IC200GBI001 unit has 2 different power settings.

3.10 volts power at 3 mA current and 250 volts power at 5 mA current.
March 27, 2025 BY
IN GE

Fanuc General Electric IS420UCSBH4A Controller Module

Specification

Part Number: IS420UCSBH4A

Manufacturer: General Electric

Country/Region of Manufacture: United States (USA)

Series: Mark VIe

Function: UCSB Controller

Microprocessor; 600MHz Intel

Memory: 256 MB DDR2 SDRAM

Operating System: QNX Neutrino

The IS420UCSBH4A is a controller module manufactured by General Electric as part of the Mark VIe family.

for gas turbine control systems with 1066 MHz Intel EP80579 microprocessors.

The application code is executed by a separate computer called the UCSB controller.

The controller is panel mounted and communicates with the I/O packages through an on-board 1/0 network (IONet) interface.

Only Mark controls the I/O modules and the controller, supported by a dedicated private Ethernet network called IONet.

The controller’s operating system (OS) is QNX Neutrino, a real-time multitasking operating system developed for industrial applications requiring extreme speed and reliability.

The UCSB controllers lack any application I/O hosts compared to traditional controllers that host application I/O on the backplane.

In addition, each controller has access to all I/O networks for all input data.

If a controller is rejected for maintenance or repair, the hardware and software architecture ensures that no single point of application input is lost.

Functional safety loops are implemented using www.cniacs.com Mark VIeS UCSBSIA safety controllers and Safety 2/3 modules for SIL 1 and 0 functionality.

Operators familiar with SIS applications use Mark Vles safety devices to reduce the risk of critical safety functions.

These special control hardware and software have IEC 61508 certification and are specifically configured for use with safety controllers and distributed I/O modules.

UCSB controllers offer the following benefits:

Single module

Built-in power supply

No jumper settings required

No batteries

Fanless (UCSBSIA, UCSBHIA, UCSBH4A)

Dual redundant fans with IS420UCSBH3A

Smaller panel footprint

Flash memory can be easily updated
March 27, 2025 BY
IN GE

Fanuc IC200ALG260 Analogue Input Module

Formerly manufactured by GE Fanuc Automation, the module is now part of Emerson Automation.

This analogue input module features eight (8) analogue inputs that can be configured specifically for voltage or current signals.

These are 4-20 mA current input signals and -10VDC / +10 VDC voltage input signals with 12-bit channel resolution.

About the IC200ALG260

The IC200ALG260 is an analogue input www.cniacs.com module from the Versamax I/O platform.

It is an eight (8) channel input module designed to accept unipolar and bipolar voltage signals of

0 to 10V and +/-10VDC, respectively, as well as current input signals such as 4-20 mA.

The module converts the accepted signals into digital data with a resolution of 12 bits.

The module requires no external power supply to operate. It has a 250VAC continuous optoisolation rating and a 1500VAC for 1 minute optoisolation rating.

Available LED status indicators for the IC200ALG260 include an internal power LED (INT PWR LED) and a normal LED.

It has a backplane current consumption of 5 mA at 130 VDC** and has built-in internal power-down diagnostics.

Configurable parameters for this module include range selection and mode selection. The module’s** input impedance in voltage mode is 126 kOhms.

The module has an input impedance of 126 kOhms** in voltage mode and 200 Ohms** in current mode, with a typical accuracy of +/-0.3% at full scale.

The module has a typical accuracy of +/-0.3% at full scale, and an accuracy of +/-5.25% at full scale when operating at 0 degrees Celsius** and +/-60% at 1-0 degrees Celsius**.

Resolution is 4?A = 8 counts in current mode; 2.5 mV = 8 counts in bipolar voltage mode, 2.5 mV = 8 counts in unipolar voltage mode, and 2.5 mV = 8 counts in bipolar voltage mode.

2.5 mV = 8 counts in unipolar voltage mode. The module has an interchannel crosstalk rejection* of 30 dB.

The module supports single-ended wiring configurations where analogue measurements are made with reference to ground.

It is less resistant to electromagnetic interference (EMI), so proper noise cancellation and signal conditioning are recommended prior to signal termination.

The IC200ALG260 Input Module is a GE Fanuc analogue input module for the GE Versamax PLC family that can be used as an interface device for 8 current inputs or 8 voltage inputs.

All 8 of its inputs are single-ended and they are arranged in a group.

The IC200ALG260 analogue input module draws 5 mA** of current from the backplane at a rated voltage of 130 volts.

The module is powered from the power supply on the backplane. It does not require power from an external supply unless it is connected to a transceiver device.

The module also does not have a thermal derating feature.There are 260 LED indicators on the IC2ALG200 analogue input module.

One is a green INT PWR LED that indicates to the operator that field power is available to the analogue field side circuit.

The other is a green OK LED that indicates to the operator that the module has backplane power.

Field power for the field side circuits in the GE Fanuc Versamax IC200ALG260 analogue input module is generated internally.

The module has a filter response time of 5 milliseconds when operating in voltage mode and when running in current mode.

The IC200ALG260 analogue input module operates in voltage mode by default, but can be configured to operate in current mode if required by the PLC or its intended application.

The module has a current rating of 4 to 20 milliamps and its input voltage rating is the default -10 to 10 volts DC bipolar or a configurable 0 to 10 volts unipolar.
March 27, 2025 BY
IN GE

IC200CMM020 Serial Communications Expansion Module

About the IC200CMM020

The GE Fanuc IC200CMM020 module is a Versamax compatible serial communication module.

It is used as a Modbus master module to configure Versamax I/O by using Genius’ NIU.

Serial ports are present in the module to interface with different slave devices by including controllers, readers and VFDs.

Data and information from these devices is transferred between the Network Interface Units (NIUs) via the local network.

This data is compatible with the different controllers that process the Genius global data.The IC200CMM020 module can connect up to 2 I/O stations at a time*.

It is equipped with an RS-485 port, a 15-pin D-type connector and an RS-232 port.

The IC200CMM020 module has different www.cniacs.com baud rates of 1200. 2400. 4800. 9600. or 19200 baud with full and half duplex operation.

The communication module draws a total of 5 milliamps of current at 460 output volts and 3 milliamps of current at 5.3 output volts.

The GE Fanuc IC200CMM020 module itself is compact, measuring 4.3 inches wide by 2.63 inches high. The depth is 1.956 inches.

The IC200CMM020 module can be easily configured through a generic COMM using a programmer.

The data length of the module should be configured to zero during communication between the module and the Ethernet controller.

The controller has an open architecture and can only be used for indoor purposes. The module has safety and protection features.

Whenever overcurrent is detected in the module, an internal current limit switch locks out the circuit and performs damage control.

There are LED indicators on the front of the module to indicate different operations.
March 24, 2025 BY
IN Reliance

Reliance PSC7000 PROGRAMMABLE SERVO CONTROLLER

The SERCOS module can realize the SERCOS communication between the controllers the drives. 

The PG module has independently 5 channel each of input and output circuits (PG input and analog output) per one card. One PG module can control independently 5 axes, the maximum two sets of the PG modules can be mounted on the PSC7000 control card. Consequently, the maximum 10 axes can be controlled.

The DSP module with built-in high speed processors www.cniacs.com executes the servo control programs. At least one DSP module is necessary in the PSC7000 control card.

Three slots capable of mounting various modules are arranged on the lower part of the PSC7000 control card . Various modules such as the DSP module and PG module can be mounted into the slots as the need arises. 

Features for PSC7000 Servo Controller

High speed synchronous communication between drives

High speed synchronous communication between drives is attained with the SERCOS communication.

High speed operation

High speed operation at 150MFLOPS is attained by means of high speed DSP.

Multi-axis application

Applicable to high speed synchronous communication with the maximum 10 axes per one rack (in case of PG input and analog output).

Applicable to high speed synchronous communication with the maximum 224 axes, as 32 axes per one rack (in case of the SERCOS communication).

Applicable to various signal feedback control.

Realize high performance control systems using SERCOS communication, Synchlink communication, resolver.and high resolution encoders or the like as well as conventional PG signal feedback control.

Applicable to various networks

Applicable to various networks such as DCSnet, CC-Link, and DeviceNet.

Connection of. USB2.0 and Ethernet

Attain quick connection with the PC while programming and serv1c1ng the PSC7000 controller, and shorten required time for downloading and uploading of the application programs. Realize real-time observation for the internal states of the drives by means of oscilloscope functions for high speed sampling when debugging the application programs of the PSC7000 controller.

Compactflash card

Use compact, large capacity compactflash cards capable of accessing at high speed in the PSC7000 controller as record media of the application programs. Realiza to store failure information and production records at an application level.
March 24, 2025 BY
IN A-B

A-B MPL-B540K-SJ22AA High Quality Permanent Magnet Rotary Servo Motor

Description.

This permanent magnet servo motor assembled by AB is a 165 mm frame size servo motor.

In addition, this AC servo does not come with a braking function built into the low inertia motor with a voltage rating of 400V.

In addition, it comes with a single-turn encoder www.cniacs.com mounted in the servo. In addition, this MPL series premium servo is rated at 4000 revolutions per minute.

This MPL permanent magnet motor comes with a circular bayonet forward connector that is included with this servo motor.

About the MPL-B540K-SJ22AA

The Allen-Bradley/Rockwell Automation MPL-B540K-SJ22AA servo motor is a low inertia AC servo motor.

It is a premium servo motor with positioning accuracy, efficiency and the possibility of dynamic speed changes as standard features.

Users can rely on Allen-Bradley’s extensive expertise in the field of industrial machine speed and position control, which is used in the production of the MPL series of AC servo motors.

The MPL-B540K-SJ22AA servo motor is part of this series and is manufactured using the latest technology and materials to provide high power output in a small enclosure.

The servo motor is rated at 400 volts AC and has a power rating of 5.4 kW.

The motor is rated at 4.000 rpm, while its rotor inertia is rated at 0.00147 kg-m2.The servomotor has a maximum stall torque value of 430 pounds per inch and its continuous stall torque is 172 pounds per inch.

The MPL-B540K-SJ22AA servomotor has a magnetic stack length of 101.6 mm (4 inches) and a 165 mm frame with IEC metric mounting flanges with free-flowing mounting holes (type FF mounting holes).

The key component of the servo motor that interacts with the control section of the overall servo system is the factory-installed, single-turn, high-resolution encoder.

The MPL-B540K-SJ22AA servomotor has a keyed shaft but no shaft seal.

The unit therefore has a protection class of IP 50.The servomotor has been successfully tested in many industrial applications.

This confirms their flexibility and readiness to meet any specific customer requirements and to integrate effectively with a wide range of mechanical, electromechanical and electronic technologies.

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