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April 27, 2025 BY
IN ABB

ABB CM-TCS Temperature Monitoring Relay

The temperature monitoring relay CM-TCS monitors over-temperature, under-temperature or temperature between two thresholds (window monitoring) via a PT100 sensor.

As soon as the temperature falls below or exceeds the threshold, the output relay changes position according to the configured function and the LED display on the front shows the current status.

All devices are available in two different terminal versions. You can choose between the proven screw connection technology (dual-chamber cage connection terminals) or the completely tool-free easy connection technology (push-in terminals).

Features

Configurable over-temperature monitoring, under-temperature www.cniacs.com monitoring, temperature window monitoring, etc.

All configurations and adjustments via front-operated elements

Precise adjustment via direct reading scale

One or two thresholds

Hysteresis 2-20 % adjustable

Operating temperature range -40… +60°C

Open or closed circuit principle configurable

Short-circuit monitoring and wire break detection

Screw connection technology or simple connection technology possible

Housing material according to the highest fire protection class UL 94 W-0

DlN rail mounting and dismounting without tools

1 x2 co or 2×1 c/o (SPDT configurable)

22.5 mm (0.89 in) wide

3 LEDs to indicate operating status
April 27, 2025 BY
IN ABB

ABB CM-IWx Insulation Monitoring Relay

Reliable insulation monitoring of IT systems

CM-IWx insulation monitoring relays ensure continuous insulation monitoring of IT systems to minimize equipment downtime.

ABB’s CM-IWx insulation monitoring relays for IT systems provide continuous, reliable monitoring.

These devices recognize an insulation fault as it develops and trip once the value falls below a minimum set threshold.

This makes the system more reliable and prevents interruptions caused by severe secondary insulation faults.

Make your monitoring safer and your maintenance smarter with the CM-IWx insulation monitoring relay.

Continuous operation

Reduce downtime with early warning

More time for planned maintenance

Early fault detection by monitoring voltage-free networks

Railroad and marine approved models available

Safety and Protection

Safe and reliable insulation fault detection

Compliance with the latest standards

Solutions for standard and challenging applications

Fast and reliable earth fault detection supports fire protection

Self-diagnostics and wire break detection

Easy to install

Clear indication of device status via LEDs

Easily adjusted using a rotating wheel

Push-in terminals

Features

System voltage monitoring up to 1500 V DC and 1100 V AC

System leakage capacitance monitoring up to 3000 μF

Versatile system monitoring for 2-wire, 3-wire, www.cniacs.com 4-wire and battery systems

Easily configurable wire break detection

Easily configurable non-volatile fault storage
April 27, 2025 BY
IN ABB

ABB CM-TCN Intelligent Temperature Monitoring Relay

Device Overview

The CM-TCN Smart Temperature Monitoring Relay is designed to meet different customer needs with one device.

Its LCD display provides intuitive status updates, and through Near Field Communication (NFC) you can adjust settings simply from your smartphone, making installation quicker and more intuitive.

With a measuring range of -200…+850 °C, the device is compatible with a wide range of sensor types and offers storage for predefined and user-defined configurations for common motor or transformer monitoring applications.

Wireless configuration and status checking is possible using ABB’s EPiC application.

Using the app, parameters can be quickly set and stored in the app or copied to other CM-TCN devices, even in the absence of power.

In addition, parameters can be uploaded to the www.cniacs.com cloud or shared via email within seconds.

Temperature monitoring relays are typically used in the following applications:

Motor and system protection

Control cabinet internal temperature monitoring

Motor monitoring

Transformer monitoring

Ambient temperature monitoring

Process variable temperature limits

Bearing temperature monitoring

Coolant Temperature Monitoring

Packaging Industry

Air conditioning systems

Ventilation systems

Heat pumps

Hot water supply

LCD display and symbol-based menu structure

Unit with LCD display.
April 27, 2025 BY
IN Motorola

Motorola 3496B01A MVME712M/M P2 Adapter Board

Features:

4 25-pin multi-protocol EIA-232-D serial ports

The MVME712M is an I/O converter module for Motorola MPU VME Modules, VME Processor Modules, Embedded Controllers, and Single Board Computer (SBC) series processor modules.

The MVME712M is compatible with the MVME147. MVME1600. MVME162. MVME2600. MVME167. MVME2700. MVME177. MVME3600. MVME4600.

The MVME712M is used as an interface between the processor module and its peripherals. The purpose of this module is to provide rear panel industry standard connectors to simplify external customer cable requirements.

Features:

4 25-pin multi-protocol EIA-232-D serial ports

The MVME712M is an I/O converter module for Motorola MPU VME Modules, VME Processor Modules, Embedded Controllers, and Single Board www.cniacs.com Computer (SBC) series processor modules.

The MVME712M is compatible with the MVME147. MVME1600. MVME162. MVME2600. MVME167. MVME2700. MVME177. MVME3600. MVME4600.

The MVME712M is used as an interface between the processor module and its peripherals. The purpose of this module is to provide rear panel industry standard connectors to simplify external customer cable requirements.
April 27, 2025 BY
IN Motorola

Motorola PPMC750-1141 Processor PCI Mezzanine Card

PPMC750-2xxx Description

The PPMC750-2xxx is an extended form factor version of the PPMC750 Processor PCI Mezzanine Card (PPMC) board (see the Processor PMC Standard for VITA-32-199x Processor PCI Mezzanine Cards for more information).

The PPMC750-2xxx is 1.5 times wider than normal at 111 mm. It is based on the PowerPC MPC750 processor and the Hawk PCI host bridge/system memory controller.

Standard features of the PPMC750 include 1MB of L2 cache, an on-board bank of SDRAM (32MB to 128MB), 8MB of FLASH, and optional SDRAM memory expansion.

In addition to the standard features of the PPMC750. the PPMC750-2xxx features 1MB of socketed FLASH, a 10/100TX Ethernet channel, a 190-pin Mictor debug connector, and a serial port debug connector.

Four 64-pin PMC connectors on the PPMC750-2xxx are used to connect the PPMC750-2xxx to the motherboard.

A 10-pin right-angle connector located on the side of the motherboard provides the interface to the asynchronous serial port. A 16-pin header provides the interface to the processor’s JTAG/COP port.

A 190-pin Mictor connector on the secondary side of the www.cniacs.com board provides debug access to the processor bus.

The serial port and JTAG/COP interfaces and ABORT_L signals are also routed to the PMC P14 connector for access to the carrier board.

The PPMC750-2xxx includes a 140-pin AMP connector mounted on the auxiliary side of the board to provide sockets for memory expansion functions.

The presence of this connector increases the height measurement of the components on both sides beyond the standard PMC height.

Monarch and Non-Monarch PPMC

The traditional concepts of host/master and slave/target processors changed with the creation of the PPMC because the arbiter or clock source traditionally located on the host board was not on the PPMC7502xxx.

The VITA 32 specification defines the terms Monarch and Nonmonarch to refer to the two modes of PPMC operation.
April 27, 2025 BY
IN Motorola

Motorola MVME162FX Embedded Controller

The MVME162FX is based on the MC68040 or MC68LC040 microprocessor.

Different versions of the MVME162FX are available with 4MB, 8MB or 16MB of unprotected DRAM, 8KB SRAM (with battery backup), daily clock (with battery backup),

Ethernet transceiver interface, two serial ports with EIA-232-D or EIA-530 or EIA-485/422 interfaces, six timers, watchdog timer, one PROM socket,

1MB of Flash memory (one Flash device), four IndustryPack (IP) interfaces with DMA, SCSI bus interface with DMA, VMEbus controller, and 512KB of SRAM with battery backup. a “no VMEbus” option is also available.

The I/O on the MVME162FX is connected to the VMEbus P2 connector. The main board is connected via a P2 transition board and a cable connecting the transition board.

The MVME162FX supports the transition boards MVME712-12. MVME712-13. MVME712M, MVME712A, MVME712AM, and MVME712B (referred to in this manual as MVME712x unless otherwise noted).

The MVME712x transition board provides configuration headers and industry standard connectors for I/O devices.

I/O connections to the serial ports on the MVME162FX www.cniacs.com are also made via two DB-25 front panel I/O connectors.

The MVME712 series transition boards are designed to support the MVME167 boards, but can be used on the MVME162FX if some special precautions are taken.

(For more information, see the Serial Communications Interfaces section of the MVME162FX Embedded Controller Installation and Use Manual).

These transition boards These transition boards provide configuration headers, serial port drivers, and industry-standard connectors for I/O devices.

These transition boards provide configuration headers, serial port drivers, and industry standard connectors for I/O devices.

Benefits

The MVME162FX series provides an ideal platform for embedded monitoring applications for OEMs and solution developers.

It enables OEMs to minimize engineering costs while integrating value-added hardware and software applications into off-the-shelf products.

To provide a wide range of solutions, the MVME162FX allows the use of a variety of MPUs, memory and interface options such as floating point, Ethernet, SCSI and VME.

As a result, the MVME162FX variants best fit the application requirements.
April 27, 2025 BY
IN ABB

ABB SPHSS13 Hydraulic Servo Module

General Information

Product Code: SPHSS13

ABB Model: SPHSS13

Catalog Description: Hydraulic Servo Module

Long Description.

Hydraulic servo module for Harmony Rack, redundant servo coils, redundant AC or DC LVDT, PI and P-only control.

Additional Information

Medium Description.

Hydraulic Servo Module for Harmony www.cniacs.com Rack, redundant servo coils, redundant AC or DC LVDT, PI and P control only

Product Type: I-O_Module

Product Type: I-O_Module

Country of Origin: India (IN) Malta (MT)

Customs Tariff No.: 8538908180

Product Dimensions

Net Depth/Length: 297.18 mm

Net Height: 35.56 mm

Net Product Width: 175.26 mm

Product Net Weight: 0.272kg

Environmental Protection:

WEEE Category: 5. Small devices (external dimensions up to 50 cm)

Number of batteries: 0

Category.
April 24, 2025 BY
IN Hitachi

Hitachi Energy New Generation Digital Substation


Managing Grid Assets in the Digital Substation

So how can you control the grid in a way that improves reliability and keeps the cost of power low? With limited capital budgets, the

utilities must make choices related to long-term expenditures.

These choices include

 Considering all relevant factors, determining which projects minimize risk

 Determining which www.cniacs.com aging equipment assets can more cost-effectively reduce risk

 determining whether additional capital expenditures can be justified to regulators or other stakeholders.

Regulators or other stakeholders

 Determine the most efficient way to deploy resources during an outage

Process bus digital communication standards support interoperability between IEDs from different vendors and “digitize” modern substations.

When process bus devices are properly configured according to the IEC 61850 standard, they provide fast, reliable and secure communications that

to support device protection, remote monitoring and remote control. Process buses can also provide control centers with situational awareness based on accurate and timely measurement data from all corners of the grid.

control center situational awareness based on accurate and timely measurement data from all corners of the grid. By connecting the data to the APM application, the data enables coordination between transmission sections and between transmission and distribution operators.
April 24, 2025 BY
IN Hitachi

Hitachi Energy Shielded Detachable Connectors

Applications

Separable cable connectors with shield are used for 12-24 kV XLPE-insulated single- or three-core cables with aluminum or copper conductors. They are suitable for use in standardized bushings with an A-type outer cone according to EN 50181.

Standards

– GB/T12706.4

– IEC 60502.4

Features

– Elbow cable connectors CSEB and straight cable connectors CSS-B are made of EPDM rubber with three layers: conductive inner layer, insulating layer and conductive outer layer.

The three layers of rubber are vulcanized to make the interface between the layers as perfect as possible. It has good UV, ozone and tracking resistance and is suitable for outdoor use.

The capacitance test points of the connectors are covered by conductive rubber caps to ensure complete shielding.

– Supplied in a three-phase kit including crimped cable lugs, terminal block, installation tool and ground wire, designed to ensure reliable installation

– Single- or three-conductor cable grounding kit must be used (can be ordered separately)

Pre-assembled shielded detachable connectors

Applications

Preformed shielded breakaway connectors for 12kV XLPE insulated single or three core cables with aluminum or copper conductors. Suitable for EN 50181 Type C interface

Standard

– GB/T12706.4

– IEC 60502.4

Features

– Pre-molded shielded separable connectors are made of EPDM www.cniacs.com rubber with three layers: conductive inner layer, insulating layer and conductive outer layer.

The three layers of rubber are vulcanized to make the interface between the layers as perfect as possible. It has good resistance to UV, ozone and tracking.

– Supplied in three-phase kits with crimped cable lugs, stress-graded adapters designed to ensure reliable installation

– Single- or three-pole cable grounding kit must be used (can be ordered separately)
April 24, 2025 BY
IN Hitachi

Hitachi Energy Cold Shrink Fittings and Terminals JS-A and CST (12-42 kV)


Cold Shrink Fittings JS-A 12-42 kV

Application

Cold-shrinkable joints for 12-42 kV XLPE-insulated single- or three-core cables with aluminum or copper conductors.

Standards

– GB/T 12706.4

– IEC 60502.4

Characteristics

– The body of the cold shrink fitting is made of liquid silicone rubber, which is water-repellent and erosion-resistant. High elasticity and shrinkage capacity ensures a strong and stable active pressure between the rubber and the cable, which can cope with the expansion or contraction of the cable diameter in the process of changing

Expansion or contraction of the cable diameter under load cycling.

– The strain relief cone, insulation and conductive layers www.cniacs.com are pre-molded together in a one-piece design, eliminating the need for installation tools. This solves problems such as poor bonding between the separate layers and ensures safe operation.

– Unique multi-layer waterproof construction. Waterproof armored tape and resin outer jacket solutions are available

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