Welcome to the official website of CNIACS Automation Technology Co., Ltd!
0

Year: 2025

Home / 2025 (Page 196)
May 19, 2025 BY
IN Hitachi

Hitachi Energy 560CVD11 Multimeter

560CVD11 Multimeter with FCD, 4U/4I

Can be set to automatically change the screen of the measurement page every 6 seconds and to display each screen once.

CT/VT interface with 3 voltage and 3 current inputs for direct monitoring of 3-wire 85…. .400 VAC

1 A/5 A input for AC transformers

RTU500 serial interface (RS-485)

Display on the front

Applications

The multimeter 560CVD11 is used to measure analog AC input signals from three independent phases with additional inputs for neutral current and voltage.

The module measures the voltage and current per phase directly and generates a series of calculated values.

In addition, the module can detect fault currents and the direction of overcurrent. The modules support configurations with 3 or 4 voltage transformers.

Features

The multimeter is a microprocessor-based intelligent electronic device (IED) for measuring current, voltage, power and energy.

Fault current detection and overcurrent indication are also provided.

The current and voltage inputs are connected via transformers only (see Wiring). The modules support configurations with 3 or 4 voltage transformers and 3 or 4 current transformers.

The calculated values are scaled according to the constants programmed by the user for the current and voltage transformers. All values are updated after 200 ms.

Fault current can be measured up to 20 times the rated current.

The current input can withstand 50 times the rated current for 1 second.

The multimeter is equipped with two binary outputs, which are not supported in the RTU500 series configuration.
May 19, 2025 BY
IN ABB

ABB Trip circuit supervision relay TCS

Continuous supervision of complete trip circuit independent of circuit breaker position

The supervision relay type TCS is intended for a continuous supervision of circuit breaker trip circuit and gives an alarm for loss of auxiliary supply, faults on the trip coil or its wires independent of the breaker position, faults on the breaker auxiliary contacts and faults in the supervision relay. The trip circuit supervision is a crucial requirements as its failure can cause disconnect of possible network fault and eventually have to be cleared by another upstream protection.

In normal condition, the indicator LE D glows green and output relays are in picked-up condition. In the event of a fault, the supervision relay operates (drops-off)after a delay of 0.6 sec and the indicator LED turns red.

TCS relay product range

• Rated voltage: 24V DC, 30V DC, 48V DC, 100-125V AC/DC, 220-250V AC/DC

• Contact configuration: 1NO+1NC+2C/O

Main benefits

• Highly reliable

• Personnel as well as power system safety

• Easy site installation

Main features

• Continuous supervision of trip circuit independent of the circuit breaker position

• Galvanic isolation between auxiliary supply and supervision circuit

• Delayed operation to avoid spurious signals during circuit breaker operation

• Enables use in sensitive or high resistance circuits

• Extremely low burden on auxiliary source

• Complete range of rated voltages either AC/DC

Features

• Continuous supervision of trip circuit independent of the circuit breaker position

• Extremely low burden on auxiliary source

•  Complete range of rated AC / DC voltage

•  Operation indication for trip circuit healthy and unhealthy

•  Low-level measuring current enables application of relay for high burden circuits

•  Delayed operation to avoid spurious signals during circuit breaker operation

•  Galvanic isolation between auxiliary supply and supervision circuit
May 19, 2025 BY
IN Motorola

Motorola MC-Edge Intelligent Gateway

Your gateway to mission-critical IoT

Now, more than ever, systems operating inmission-critical environments require a new level of connectivity and security. Whether it’s a natural disaster or a man-made emergency, IoTdevices are often on the first line of defense. 

MC-Edge® is an intelligent gateway designed for IoT applications.

MC-Edge’s extensive security, ultra-reliable communication capabilities and reliability of transport across two-way radio, LTE, and analog radio modes make it easy for you to implement, support and grow your IoT systems to fully support all your mission-critical operations. 

Built for versatility, MC-Edge has you covered today, and prepared for tomorrow.

MC-Edge works with ThingPark, Actility’s LoRaWAN Network and is fully configurable 

and manageable from the ThingPark Enterprise console. This addresses the need for the strictest requirements in security and operational continuity.

Expand reach with wireless built-in

Expand your operations that currently have no power or communication coverage with MC-Edge, wireless LoRaWAN gateways and servers. MC-Edge is used as a data aggregator for LoRaWAN IoT devices that can span wide areas with minimal power consumption. Utilize MC-Edge to backhaul LoRa data over two-way radio or wireless broadband to your IoT applications.
May 15, 2025 BY
IN Motorola

Motorola ACE3600 Remote Terminal Unit

 KEY BENEFITS:

 • High-performance, real-time processing for complex control and automation applications

 • Robust communication media and protocol support for greater interoperability

 • MDLC protocol support for more efficient data communication over narrowband or broadband

 • Enhanced security features internationally tested and certified

ACE3600 REMOTE TERMINAL UNIT

Supervisory control and data acquisition (SCADA) systems are continuously relied on to support the most demanding industrial applications and keep your operations running efficiently. Keep your assets connected to enhance productivity and safety across your operations with the ACE3600 Remote Terminal Unit (RTU). 

The ACE3600 aims to make automation and monitoring of your complex processes robust and cohesive by connecting across a variety of communication media and data processing protocols. Enhanced security features also ensure your operations aren’t compromised and productivity doesn’t cease. 

Modular design and abundant customization enables the ACE3600 to fit your specific SCADA needs. You can start small and grow, confident that the powerful processor can handle complex applications and keep your operations connected even as your needs or technologies evolve.

HIGH-PERFORMANCE, REAL-TIME PROCESSING POWER

 Whether caused by a storm, theft or just aging infrastructure, disruptions to performance and the inability to pinpoint abnormalities decreases your productivity and can put personnel in harm’s way. The ACE3600’s processing power provides accurate data analysis and communication for the most critical, and demanding SCADA applications to ensure optimal operation.

 A 32-bit processor, running at 200 MHz, delivers real-time processing with support for up to 110 I/O modules, while the substantial Flash and DRAM memory capacity provides plenty of storage for alarms, events, live data, historical reports and files. Both polling and event-based reporting are supported, peer-to-peer or RTU-to-host.

 The ACE3600 can also be redundantly configured with a simple Ethernet interconnection. This ensures continuous operation if one CPU or power supply were to fail.
May 15, 2025 BY
IN Hitachi

Hitachi Energy 560FSM10 Modem Connectivity and Setup

RTU560

Remote Terminal Unit

Connectivity and Setup

Modem 560FSM10

Operation

The 560FSM10 modem is a CCITT V.23 modem with snap-in DIN rail mounting.

The V.23 uses the frequency shift keying (FSK) method. The modem operates in both 2-wire and 4-wire connections.

The operating mode is set by a 12-fold DIP switch. Figure 1 shows the front view of the modem with the components described in the next chapter from top to bottom.

The power connector X1 consists of three terminals for connection to the supply voltages shown in Table 1.

The PE pin must be connected to ground at the installation. The power indicator lights up when power is supplied.

The RJ45 connector X2 forms the RS232-D interface with the signals in Table 2. If the modem is connected to a communication device, the

If the modem is connected to a communication device, an adapter cable must be used to connect the pairs of lines in Table 2.

The RTS indicator lights up when the end device requests to send via the modem.

The DCD indicator lights when the 560FSM10 detects a carrier signal on the line interface. The CTS indicator lights when a carrier is being established.

CTS will be set at the same time. The 20-30ms transmit delay time must be adjusted in the CMU settings.

DIP switch S1 determines the operating mode of the modem. Switch C-1 is reserved for future use.

C-2 establishes a permanent carrier on the line, which is useful in a four-wire full-duplex connection. Table 3 summarises the above carrier modes.
May 15, 2025 BY
IN ABB

ABB Ethernet Communications offers managed and unmanaged switches for Ethernet communications

Ethernet Communications

Innovative Products for Ethernet Data Transfer in SCADA Applications

Innovative products for Ethernet data transmission in applications

Ethernet communication Managed and unmanaged switches for Ethernet communication are available. the DSL technology and the tunnelling capability of the serial protocols make it possible to switch directly from conventional serial Voice Frequency Telegram (VFT) transmission to Ethernet communication while retaining the existing copper wires without having to adapt the serial terminals, e.g. for remote control technology.

Features such as Rapid Spanning Tree Protocol (RSTP), bypass circuits such as those found in UMTS or Tetra modems, and the use of optical communication lines are also available for increased usability.

Managed Ethernet Switches

Highlights

– Connects over copper wires:

– DSL coverage of up to 20 km based on (S(H)DSL)

– DSL connection via 2-wire at speeds from 192 to 11400 kbps

– Automatic speed adjustment according to line quality

– Compatible with other S(H)DSL modems via IEEE EFM (IEEE 802.3)

– DSL transmission quality (signal vs. noise level) monitoring/messaging

– 560NMS24 can automatically connect lines in case of power failure

– Optical connection:

– SFF slot for insertion of SFP modules

– Supports SFP modules for multimode and singlemode fibre cables

– Transmission speed of 100 Mbps

– Coverage of up to 40 km, depending on the SFP module

– Transmission of serial protocols on up to two serial interfaces

– Point-to-point, split-wire and signal sampling

– Each interface can have a different data rate

– 4-port 10/100 BaseT switch for connecting devices (VLAN assignable)

– Network topologies supported: point-to-point, point-to-multipoint and ring

– Redundant transport routing over copper, optical fibre and bypass circuits to external TCP/IP modems (e.g. UMTS or Tetra)

– Fast Spanning Tree Protocol, link aggregation, VLANs, QoS, port mirroring, static and dynamic routing (RIP)

– Repeater functionality

– Transmission of system events from the switch via IEC 60870-5-101/104

– Configurable alarm relays

– 2 binary inputs/outputs per serial interface (requires external circuitry)

– Configuration via RS232. Simple Network Management Protocol (SNMP), Telnet, Secure Shell (SSH), Web interface, optional login via Radius server

– Easy device replacement via configuration flash drive

– Suitable for harsh environmental conditions:

– High Electromagnetic Compatibility (EMC) safety.

– High electromagnetic compatibility (EMC) safety -25… + 70 °C

– Integrated overvoltage protection

– No fans or moving parts

– Supply voltage: 24…. . 60 VDC
May 15, 2025 BY
IN Bently

Bently 3500/33 16-Channel Relay Module

DESCRIPTION

The 3500/33 16-Channel Relay Module is a full-height module that provides 16 relay outputs.

You can place any number of 16-channel relay modules in any of the slots on the right side of the Transient Data Interface (TDI) module.

Each output of the 3500/33 16-channel relay module can be independently programmed to perform voting logic.

Each relay of the module contains alarm drive logic.

The alarm drive logic is programmed using AND and OR logic and the following are available:

Alarm inputs (alarms and hazardous states)

Uncertainty states

Individual measurement variables from any monitor channel or any combination of monitor channels in the rack

You can program the alarm driver using the 3500 rack configuration software.

Ordering Considerations

The 3500/33 16-Channel Relay Module requires 3500 Rack Config version 3.3 or higher.

3500/33 requires 3500 Data Acquisition Software version 2.40 or later.

3500/33 16-channel relay modules require 3500 Data Display Software version 1.40 or higher.

If ordered with the Multiple Certification option (02), the 3500 monitor will be certified to Zone 2 standards, including ATEX and North American.

The Zone 2 standard specifies higher spacing requirements at higher voltages. 3500/33 16-channel relay modules do not meet these spacing requirements.

Therefore, modules with the multiple certification option can only be used at lower voltages than modules with other certification options.

The use of higher voltages violates the hazardous area certificates associated with the multiple certification options.

The North American Division 2 standard associated with the CSA certification only option (-01) has been reduced to 30 Vrms to comply with 61010-1 type test requirements.

If the 3500/3316 Channel Relay Module is part of a Functional Safety (SIL) system, the Functional Safety Certificate requires voltage limitation.

The Functional Safety Certificate requires voltage limiting. Higher voltages are not permitted for Functional Safety (SIL) systems.
May 15, 2025 BY
IN Bently

Bently 3500/32M 4-Channel Relay Module

DESCRIPTION

The 4-Channel Relay Module is a full-height module that provides four relay outputs.

Any number of 4-channel relay modules can be placed in any of the slots on the right side of the Transient Data Interface Module.

Each output of the 4-Channel Relay Module can be independently programmed to perform voting logic.

Each relay used on the 4-Channel Relay Module contains alarm drive logic.

The Alarm Driver Logic is programmed using AND and OR logic and can use alarm inputs (alarms and hazardous conditions),

“Uncertain” or a single PPL from any monitored channel or any combination of monitored channels in the rack.

You can use the 3500 Rack Configuration Software to program the Alarm Driver to meet the needs of your application.

Technical Specifications

Inputs

Power Consumption.

Typically 6 watts output

OK LED (Light Emitting Diode).

Flashes when the module is functioning properly

TX/RX LEDs.

Used for transmission and reception, flashes when communication between the module and other modules in the frame is normal.

TX/RX LED: Used for transmission and reception, flashes when the module is communicating properly with other modules in the frame

CH ALARM LED.

Flashes when the relay channel is in alarm.

Relay Type: Two single-pole double-throw (SBT) relays.

Two single-pole, double-throw (SPDT) relays, connected together to form a double-pole, double-throw (SPDT) relay.

Two single-pole double-throw (SPDT) relays, connected together to form a double-pole double-throw (DPDT) format.
May 15, 2025 BY
IN Bently

Bently 3500/25 Enhanced Key Signal Module

DESCRIPTION

The 3500/25 Enhanced Keying Module is a half-height, two-channel module used to provide keying signals to the monitoring modules on the 3500 rack.

The module receives an input signal from a proximity probe or magnetic pickup and converts the signal to a digital key signal that

to indicate when the key mark on the shaft coincides with the key sensor.

The 3500 Mechanical Protection System accepts up to four Keyphasor signals in a normal configuration and up to eight Keyphasor signals in a paired configuration.

The Enhanced Keyphasor Module is an improved module for the 3500 system. It provides enhanced keyphasor signal processing over the previous design, while at the same time

It remains fully backward compatible in form, fit, and function with existing Keyphasor modules for use in legacy systems.

The 149369-01 module completely replaces the PWA 125792-01 Keyphasor module.

When Triple Module Redundancy (TMR) applications require system key inputs, the 3500 system should use two Keyphasor modules.

In this configuration, the modules operate in parallel, providing primary and secondary key signals to other modules in the rack.

Systems with more than four pushbutton inputs can use a

paired configuration, provided that

there are no more than four primary keyed phase input signals.


Applications that connect to multiple devices in parallel and

applications that require isolation from other systems, such as

control systems. Isolated I/O Modules

Designed for magnetic pickup applications

applications, but provide isolation from Proximitor

applications but provide isolation from the Proximitor.

Provides isolation from the Proximitor application.

This I/O module is primarily used for

measuring shaft speed rather than phase.
May 15, 2025 BY
IN Bently

Bently 3500/22M Transient Data Interface Module

Description

The 3500/22M Transient Data Interface (TDI) is the interface between the 3500 Monitoring System and compatible software (System 1 Condition Monitoring and Diagnostics Software and 3500 System Configuration Software).

(System 1 Condition Monitoring and Diagnostics Software and 3500 System Configuration Software).

The TDI combines the functionality of the 3500/20 Rack Interface Module (RIM) with the data collection capabilities of a communications processor such as TDXnet.

The TDI is located in a slot next to the 3500 rack power supply. It interfaces with M-Series monitors (3500/40M, 3500/42M, etc.).

It connects to the M-Series monitors (3500/40M, 3500/42M, etc.) and continuously collects steady-state and transient dynamic (waveform) data and transmits this data to the host software via an Ethernet link.

See the Compatibility section at the end of this document for more information.

The static data collection feature is standard on the TDI.

However, using the optional Channel Enable Disk, the TDI can also capture dynamic and high resolution transient data.

TDI integrates communications processor functionality within the 3500 rack.

While the TDI provides some common functionality throughout the rack, it is not part of the critical monitoring path.

It has no impact on the proper functioning of the entire monitoring system for automatic machinery protection.

One TDI or RIM is required per 3500 rack and always occupies slot 1 (next to the power supply).

I/O Module Signal Common Terminal

Menu

Search for products

Back to Top
Product has been added to your cart