March 2025 - Page 15 of 18

March 10, 2025 BY jiangxiaoqing123

IN GE

Multilin 269PLUS-10C-120 Digital Relay

Product Description

The 269PLUS-10C-120 was released in the GE Multilin 269 PLUS motor management relay series.

It is a standard model that includes all of the basic features and protection offered by this family of relays.269 PLUS relays are designed for AC motor protection.

With proper installation and configuration, they can be integrated into systems that protect associated mechanical systems as well as motors and operators.

For example, when a GE Multilin meter is used with the 269PLUS-10C-120. power and voltage can be monitored, as well as the values used by the relay to provide additional protection features.

A feature of the 269PLUS-10C-120 GE Multilin relay is the storage of relay setpoints and various values in non-volatile memory.

Setpoints, “learning” parameters, pre-trip values, and statistical records remain unchanged even if control power is lost or otherwise removed.

Stored values include hours of operation, total number of motor starts, number of relay trips, and more.

The 269PLUS-10C-120 also features a built-in firmware self-test to continuously check relay operation.

If the self-test program detects a fault, an alarm indicator is triggered.

The GE Multilin 269 PLUS relay offers flexibility through a custom curve feature that allows the user to enter their own breakpoints if one of the eight standard overload curves is not appropriate.

In addition, there are multiple RTD input sensor types to choose from, as well as multiple control voltage options.

RTD type and control voltage are the two specifications indicated in part number 269PLUS-10C-120.

The 10C refers to the RTD input. In this model, the sensor is a 10-ohm copper RTD. The control voltage is labeled 120. indicating that this GE relay is a 120 VAC/125 VDC model.

These relays are available in various combinations of RTD type and control voltage. If the 269PLUS-10C-120 does not meet the exact needs of your application, several other 269 PLUS models are in stock.

March 10, 2025 BY jiangxiaoqing123

IN A-B

A-B Rockwell 1769-L30ER Dual Ethernet Controller Device

The 1769-L30ER is a 5370 L3 CompactLogix controller with 1MB of user memory, dual Ethernet communication ports, and a single USB port.

The integrated communication ports support multi-node and point-to-point interfaces. Ethernet is the primary communication port used by this device to perform data exchange with a variety of devices.

This port supports linear, ring, and star topologies. Up to 16 nodes can be connected to this controller.

These nodes can consist of Human dcs-sis.com Machine Interfaces (HMI), Supervisory Control and Data Acquisition (SCADA), databases, converters, gateways, controllers, and other devices.

These embedded ports also act as embedded switches, which means that the same network traffic is experienced on the controller’s dual ports.

There are two (2) ways to assign an IP address to a controller. First, use Allen-Bradley’s BOOTP-DHCP utility.

This utility searches for a unique IP address for the device and assigns it the specified IP address.

The 1769-L30ER controller supports the installation of up to eight (8) 1769 Compact I/O modules.

In addition, up to three (3) expansion groups can be installed to further expand and maximize the functionality of the controller.

The controller is equipped with status indicators such as RUN, FORCE, BAT, OK, I/O. These LEDs are visible to the user and provide feedback on the controller’s operation.

March 10, 2025 BY jiangxiaoqing123

IN GE

Multilin VMIVME-2536 Optically Coupled Digital Input/Output Interface

Features

– 32 optically coupled outputs

– 32 optically coupled inputs

– High isolation potential – 1kV continuous – 35kV pulsed

– 8-bit, 16-bit, 32-bit data transfer

– Standard data or short I/O addressing A16 or A24

– Voltage-sensing or dcs-sis.com contact-sensing inputs

– Input range 5 to 125VDC

– 300mA sink current output

– Maximum output voltage 50V

– Inputs and outputs support built-in testing

Functional Features

Board Features: The board has 32 optically coupled inputs and 32 optically coupled outputs.

The outputs and inputs have built-in testing and provide continuous 1kV system isolation for the VME backplane.

Compliance The board conforms to the VMEbus specification ANSI/IEEE STD 1014-1987 IEC 821 and 297 with the following helpers:

a24/a16. d32/d16/d08 (eo)

Slave devices using the following address modifiers:

3D, 39/2D, 29.

BUILT-IN TEST: The VMIVME-2536 supports both on-line and off-line built-in tests (BIT).

By setting a bit in the Control and Status Register (CSR), the input will enter test mode.

In test mode, data placed in the on-board test registers is read through the input port instead of field data.

The address of the test register is the same as the address of the input data port.

The address of the test register is the same as the address of the input data port, so testing can be accomplished by simply writing to and reading from the input data port. This feature can be used for both on-line and off-line testing.

The contents of the output data register can be read at any time, thus supporting online testing. The outputs can be put into offline test mode by setting a bit in the CSR.

In offline test mode, all open collector outputs are disabled. Data patterns can then be written to or read from the output registers to perform tests without affecting the outputs.

March 10, 2025 BY jiangxiaoqing123

IN Emerson

Emerson Ovation™ Power System (5X00785G09)

Features

Redundant power configurations, each with separate external wide range AC or DC feeds

Separate primary and auxiliary power supplies in both primary and auxiliary configurations

Dual wide-range input capability

Diode auction feed

High efficiency power supplies

Modular fanless system

Redundant feeds to each controller chassis and I/O module

Continuous system monitoring

OVERVIEW

Emerson has developed a DIN-rail mounted power supply that includes four modular fanless power systems to provide reliable and stable power to Ovation™ controllers and I/O modules.

The Ovation controller power supply systems are configured in redundant configurations, each with a separate external wide-range AC and/or DC input feed.

Dual diode auction 24 VDC outputs are used to power each controller chassis and associated I/O modules, as well as to power loop and contact wetting for the I/O modules.

A 48 VDC auxiliary power supply is available for loop and contact wetting if required.

Two separate output schemes are available:

24 VDC / 10 A / 240 W main power and 24 VDC / 10 A / 240 W auxiliary power.

24 VDC / 20 A / 480 W main power supply and 24 VDC / 20 A / 480 W auxiliary power supply.

Benefits

Benefits of Ovation power solutions include

Separate primary and auxiliary power supplies are easy to replace

No cooling fan required, greatly reducing the risk of failure

Diode auction feed ensures continuous power

New design improves efficiency, reduces heat generation and extends equipment life expectancy

Dual input (AC and DC) capability reduces spare parts

Hot-swappable power supplies enable in-line replacement

Quick installation of power supplies minimizes downtime and lost production

Power factor correction reduces power consumption

10 Amp Power Solutions

10 Amp power supply options include

Redundant Power Configuration (Primary and Auxiliary) includes separate 10 Amp Primary and Auxiliary power supplies supporting multiple input voltages (85-264 VAC @ 43-67 Hz or 90-375 VDC) with 240 W output power.

March 10, 2025 BY jiangxiaoqing123

IN Emerson

Emerson 1066 Liquid Analysis Fieldbus pH/ORP Transmitter

Features and Applications

The Model 1066 Fieldbus Transmitter supports continuous measurement of one liquid analysis input.

It is designed for easy internal access and wiring connections.

Analytical inputs: pH and ORP sensors with dcs-sis.com or without Rosemount Analytical preamplifiers, and Rosemount Analytical smart pH sensors.

Large Display: High-contrast LCD displays real-time measurement readings in large numbers and up to four additional variables or diagnostic parameters.

Digital Communications: Fieldbus ITK 6 Menus: Menu screens for calibration and programming are simple and intuitive. Plain language prompts and “help” screens guide the user through the steps.

All menu screens are available in eight languages. Real-time process values are displayed during programming and calibration.

Troubleshooting and Warning Help Screens: Troubleshooting and warning information is included in the Help screens to provide the user with helpful troubleshooting tips. These screen instructions are intuitive and easy to use.

Diagnostics: The transmitter continuously monitors itself and the sensors for problems. On-screen display banners alert technicians to faults and/or warning conditions.

Languages: Emerson extends its global reach by offering eight languages: English, French, German, Italian, Spanish, Portuguese, Chinese, and Russian.

Input Damping: Automatically enabled to suppress noisy process readings.

Smart Enable pH: Rosemount Analytical SMART pH feature eliminates the need for field calibration of pH probes by automatically uploading calibration data and history.

Automatic Temperature Compensation: pH measurements require temperature compensation. the 1066 will automatically recognize the sensor’s built-in Pt100 or Pt1000 RTD, or the temperature of an on-bus temperature measurement can be linked to the 1066 and used for temperature compensation.

Sensor Wiring

Overview

Connect the correct sensor leads to the main board according to the lead locations labeled directly on the main board.

Rosemount Analytical SMART pH sensors can be connected to the 1066 using either the integrated cable SMART sensor or a compatible VP8 pH cable.

After completing the wiring of the sensor leads, carefully route the excess sensor cable through the cable gland.

Separate the sensor and output signal wiring from the loop power wiring. Do not place the sensor and power wires in the same conduit or near a cable bridge.

March 10, 2025 BY jiangxiaoqing123

IN Woodward

Woodward SECM70 Pin Small Engine Control Module

The SECM70 is part of an engine management system for mobile industrial (forklift) and stationary (genset) applications.

This may include 4 and 6 cylinder 4 stroke LPG/gasoline forklift applications, as well as 4 and 6 cylinder 4 stroke genset applications.

It is capable of fully authorized dcs-sis.com digital engine control including fuel, spark and air delivery.

Features and Functions

The SECM70 is part of the MotoHawk® family of control solutions. These products allow for rapid development of control systems.

The combination of off-the-shelf hardware and MotoHawk software allows developers to focus on the operational details of the application without worrying about the design details of the hardware.

The result is that the same hardware used in development and prototyping can be used in ongoing production.

The unit offers 70 connector pins with inputs, outputs and communication interfaces to support a wide variety of applications.

The SECM70 MY17 hardware can be calibrated in real-time using MotoTune®, ToolKit, or commercially available calibration applications.

The 8923-2588 includes the 1751-6773 module and mounting kit.

Features:

70-pin platform

Microprocessor: ST SPC5642A, 120 MHz

Memory: 2M Flash, 128K RAM, 16K Serial EEPROM

Calibratable Memory: 34K FLASH

Operating voltage: 8-32 Vdc, 36 V (jumper start), 5.5 V (crank)

Operating temperature: -40 °C to +105 °C

Inputs:

VR or digital crank position sensor

Digital cam position sensor

13 Analog

5 Digital switches

1 Switched Oxygen Sensor

1 Wide Range Oxygen Sensor

2 Burst Sensors

Outputs:

8 electronic spark triggers for smart ignition coils

9 low-side drivers, 3 lamp drivers

1 main power relay driver to power engine electrical components

2 H-bridge drivers for electric throttle and actuator

1 sensor power (5 V) output

Communication:

2 CAN 2.0b channels

Our online pricing is available for orders up to 50 pieces. If you require higher volumes, please contact Woodward for volume pricing and/or to purchase modules only (without mounting kit).

March 10, 2025 BY jiangxiaoqing123

IN Woodward

Woodward PCM112-14 Small Engine Powertrain Control Module

The PCM112 controller consists of a rigid printed circuit board that is adhered to an aluminum housing using thermal adhesive, then closed and sealed with an aluminum cover.

Connection to the controller is made via three automotive style sealed connectors. The controller can be mounted directly to the engine or frame using vibration isolators.

At the heart of the PCM112 controller is a powerful 32-bit Freescale MPC5644A microprocessor

and an auxiliary 16-bit Freescale MC9S12G microcontroller, both running Woodward’s ControlCore operating system.

Features and Functionality

Application programming is done on the PCM112 using Woodward’s MotoHawk application software tool.

MotoHawk is a rapid control system development tool that allows control engineers to quickly create control software directly in Simulink diagrams.

The software runs on any electronic control module that supports MotoHawk.

Working directly in the Simulink environment, application developers can convert application models into files that can be programmed directly into Woodward production hardware in a single build step.

MotoHawk provides an advanced programming environment for users with control system expertise but not necessarily specific embedded programming skills.

Once an application has been generated and loaded into the PCM112 controller via the CAN port, the

users can view variables and tune the controller using appropriate service interface tools such as Woodward’s ToolKit or MotoTune.

Connections to other devices (such as diagnostic tools) are accomplished through other CAN ports available on the controller.

The required information flow is programmed into the controller via MotoTune or ToolKit.

The PCM112 controller consists of a rigid printed circuit board that is attached to an aluminum enclosure using thermally conductive adhesive and then closed and sealed with an aluminum cover.

Connections to the controller are made via three automotive style sealed connectors. The controller can be mounted directly to the engine or frame using vibration isolators.

The 8923-2241 includes the 1751-6685 module and mounting kit.

March 10, 2025 BY jiangxiaoqing123

IN Woodward

Woodward PCM112-14 Small Engine Powertrain Control Module

Applications

The PCM112 control platform is suitable for a variety of applications, including powertrain control and electric vehicle monitoring applications.

At the heart of the PCM112 control is a powerful 32-bit Freescale MPC5644A microprocessor and an auxiliary 16-bit Freescale MC9S12G microcontroller.

Both run Woodward’s ControlCore operating system. Application programming is done through Woodward’s MotoHawk application software tool.

MotoHawk is a rapid control system dcs-sis.com development tool that allows control engineers to quickly create control software directly in a Simulink diagram that runs on any MotoHawk-enabled control system.

MotoHawk runs on the MotoHawk electronics control module. Application developers working directly in the Simulink environment.

One-step builds transform application models into files that can be programmed directly into DeWalt production hardware.

MotoHawk provides an advanced programming environment for users with control system expertise but not necessarily specific embedded programming skills.

Once the application is generated and loaded into the PCM112 controller via the CAN port.

users can view variables and adjust controls using appropriate service interface tools such as Woodward’s ToolKit or MotoTune.

Connections to other devices, such as diagnostic tools, are available through other CAN ports on the controller. The required information flow is programmed into the controller via MotoTune or ToolKit.