Home News (Page 38)

News

Detailed Introduction to EEA-PAM-513-A-14 Switching Output Electronic Module
Industry trends

Detailed Introduction to EEA-PAM-513-A-14 Switching Output Electronic Module

The EEA-PAM-513-A-14 is a switching output electronic module that is used to control the output signals of industrial control systems. The module is designed to be used with other electronic modules and controllers to provide precise and reliable control over a range of industrial processes. Here is a detailed introduction to the EEA-PAM-513-A-14 switching output electronic module:

Construction: The EEA-PAM-513-A-14 module has a rugged construction with a metal base plate and a plastic housing for high durability. The module is designed to handle high thermal loads, with a maximum thermal resistance of 0.3°C/W.

Input and Output: The module has a range of input and output options, including digital inputs for status and control signals, and digital outputs for controlling power output. It has 8 digital outputs that are designed to switch high-current loads with a maximum current rating of 2A per channel.

Control features: The module includes a range of control features such as overcurrent protection, short circuit protection, and overvoltage protection. These features help to protect the module and the connected devices from damage.

Communication: The EEA-PAM-513-A-14 module has a range of communication options, including serial communication via RS-485 or RS-232, and Ethernet communication via an optional module. This allows for easy integration into existing control systems and remote monitoring and control.

Applications: The EEA-PAM-513-A-14 module is suitable for a range of industrial applications, including motor control, machine control, and process control. It can be used in conjunction with other electronic modules and controllers to provide precise and reliable control over a range of industrial processes.

Overall, the EEA-PAM-513-A-14 switching output electronic module is a rugged and reliable module that is suitable for a range of industrial applications. Its input and output options, control features, and communication options make it a valuable component in many different types of industrial control systems.

By April 25, 2023 0
EEA-PAM-571-A-12 Industrial Control Card Details Introduction
Industry trends

EEA-PAM-571-A-12 Industrial Control Card Details Introduction

The EEA-PAM-571-A-12 is an industrial control card used for controlling electric power in industrial applications. It is designed to be used with a range of power control devices such as thyristors and other solid-state switches. Here are some of the details and features of this control card:

Construction: The EEA-PAM-571-A-12 control card has a rugged construction with a metal base plate and a ceramic insulator for high electrical isolation. It is designed to handle high thermal loads, with a maximum thermal resistance of 0.1°C/W.

Input and output: The control card has a range of input and output options, including analog inputs for voltage and current sensing, digital inputs for status and control signals, and analog outputs for controlling power output. It also includes built-in safety features such as overcurrent and overvoltage protection.

Control features: The control card includes a range of control features such as current limit, voltage limit, phase angle control, and soft start. These features allow for precise and reliable power control in a range of industrial applications.

Communication: The EEA-PAM-571-A-12 control card has a range of communication options, including serial communication via RS-485 or RS-232, and Ethernet communication via an optional module. This allows for easy integration into existing control systems and remote monitoring and control.

Applications: The EEA-PAM-571-A-12 control card is suitable for a range of industrial applications, including motor control, heating, and lighting. It can be used in conjunction with other power control devices such as thyristors and rectifiers to provide precise and reliable power control.

Overall, the EEA-PAM-571-A-12 control card is a rugged and reliable control device that is suitable for a range of industrial applications. Its input and output options, built-in safety features, and communication options make it a valuable component in many different types of systems.

By April 25, 2023 0
EEA-PAM-561-A-12 thyristor module details introduction
Industry trends

EEA-PAM-561-A-12 thyristor module details introduction

The EEA-PAM-561-A-12 is a thyristor module used for power control in industrial applications. It is designed to handle high voltage and current loads, making it suitable for a range of applications including motor control, heating, and lighting. Here are some of the details and features of this module:

Construction: The module has a rugged construction with a metal base plate and a ceramic insulator for high electrical isolation. The module is designed to handle high thermal loads, with a maximum thermal resistance of 0.05°C/W.

Power handling: The EEA-PAM-561-A-12 thyristor module has a voltage rating of 1200 V and a current rating of 560 A. It can handle a maximum surge current of 5800 A, making it suitable for use in high-current applications.

Gate control: The module can be controlled using a low-voltage signal applied to the gate terminal. The maximum gate trigger voltage is 3 V, with a gate trigger current of 200 mA and a holding current of 150 mA.

Mounting: The module has screw terminals for power connections and fast-on terminals for control connections. It can be easily mounted on a heat sink or other suitable surface using screws.

Applications: The EEA-PAM-561-A-12 thyristor module is suitable for a range of industrial applications, including motor control, heating, and lighting. It can be used in conjunction with other power control devices such as transformers and rectifiers to provide precise and reliable power control.

Overall, the EEA-PAM-561-A-12 thyristor module is a rugged and reliable power control device that is suitable for a range of industrial applications. Its high power handling capabilities, low gate trigger voltage, and easy mounting make it a valuable component in many different types of systems.

By April 25, 2023 0
EEA-PAM-126-C-30 Industrial Keyboard Details
Industry trends

EEA-PAM-126-C-30 Industrial Keyboard Details

The EEA-PAM-126-C-30 is an industrial keyboard that is designed for use in harsh environments. Here are some of the details and specifications of this keyboard:

Construction: The keyboard is constructed with a durable stainless steel front panel and a high-quality silicone rubber keypad that is resistant to water, dust, and oil. The front panel is IP65 rated, which means that it is protected against water jets and dust.

Keys: The keyboard has 126 keys, including function keys, numeric keypad, and a touchpad. The keys are designed for high usage and are rated for up to 10 million cycles.

Backlighting: The keyboard has adjustable backlighting for use in low-light conditions. The backlighting can be adjusted to three different levels to suit the user’s preferences.

Interface: The keyboard connects to a computer or other device via a USB interface. It is plug-and-play, which means that it does not require any special drivers or software to be installed.

Compatibility: The keyboard is compatible with a wide range of operating systems, including Windows, Linux, and Mac OS. It can be used with desktop computers, laptops, and other devices that have a USB port.

Functionality: The keyboard provides full functionality, including keyboard and mouse control, as well as shortcut keys for common functions such as volume control, screen brightness, and sleep mode.

Overall, the EEA-PAM-126-C-30 Industrial Keyboard is a durable and reliable keyboard that is designed for use in harsh environments. Its rugged construction, adjustable backlighting, and compatibility with a wide range of devices make it a valuable component in industrial settings.

By April 25, 2023 0
8V1022.00-1 Industrial Control Card Parameter Specifications
Industry trends

8V1022.00-1 Industrial Control Card Parameter Specifications

The 8V1022.00-1 Industrial Control Card is a device used for interfacing with sensors and actuators in industrial control systems. Here are some of the parameter specifications of this control card:

Inputs: The control card has 16 digital input channels and 8 analog input channels. The digital input channels are optically isolated and can handle a voltage range of 5-24V DC. The analog input channels can handle a voltage range of 0-10V DC or a current range of 0-20mA DC.

Outputs: The control card has 8 relay outputs and 8 analog outputs. The relay outputs can handle a maximum switching voltage of 250V AC/30V DC and a maximum switching current of 5A. The analog outputs can handle a voltage range of 0-10V DC or a current range of 0-20mA DC.

Communication: The control card communicates with the control system via a RS485 serial communication port. It uses the MODBUS communication protocol, which is an open standard that allows for communication between devices over a serial connection. This protocol provides a reliable and efficient means of transmitting data between the control card and other devices in the control system.

Power Supply: The control card is designed to operate on a 24V DC power supply. It has a built-in power supply module that converts the incoming voltage to the required level for the inputs and outputs.

Mounting: The control card is designed for easy mounting on a standard DIN rail, which is a common type of mounting rail used in industrial control systems.

Overall, the 8V1022.00-1 Industrial Control Card provides a range of digital and analog inputs/outputs that can be interfaced with sensors and actuators in industrial control systems. Its communication protocol, power supply, and easy mounting make it a valuable component in industrial control systems.

By April 25, 2023 0
8V1010.001-2 Input and Output Module Details Introduction
Industry trends

8V1010.001-2 Input and Output Module Details Introduction

The 8V1010.001-2 Input and Output Module is a device used for interfacing between external sensors and control systems. It is designed to provide a reliable and flexible solution for a variety of industrial applications. Here are some of the details of this module:

Input Channels: The 8V1010.001-2 Input and Output Module supports 16 digital input channels, which can be used to connect to a range of sensors and devices, such as limit switches, proximity sensors, and photoelectric sensors. These input channels are isolated, meaning that they are electrically independent from each other and from the output channels, which helps to prevent signal interference.

Output Channels: The module also supports 16 digital output channels, which can be used to control external devices such as solenoids, motors, and other actuating devices. These output channels are also isolated to prevent signal interference.

Communication Protocol: The 8V1010.001-2 Input and Output Module supports the MODBUS communication protocol, which is an open standard that allows for communication between devices over a serial connection. This protocol provides a reliable and efficient means of transmitting data between the module and the control system.

Power Supply: The module is designed to operate on a 24V DC power supply. It has a built-in power supply module that converts the incoming voltage to the required level for the inputs and outputs.

Mounting: The module is designed for easy mounting on a standard DIN rail, which is a common type of mounting rail used in industrial control systems.

Overall, the 8V1010.001-2 Input and Output Module provides a flexible and reliable solution for interfacing between external sensors and control systems in a range of industrial applications.

By April 25, 2023 0
8V1010.50-2 Controller Module Details Introduction
Industry trends

8V1010.50-2 Controller Module Details Introduction

The 8V1010.50-2 Controller Module is a device used for controlling industrial processes and systems. It is designed to provide a high level of accuracy and reliability in a range of applications. Here are some of the details of this module:

Control Functions: The 8V1010.50-2 Controller Module provides a range of control functions, including PID control, on-off control, and time-proportional control. These functions are used to regulate process variables such as temperature, pressure, flow, and level. The module also supports ramp and soak control, which is used for gradually increasing or decreasing the temperature of a process.

Inputs and Outputs: The module has 8 analog input channels, which can be used to measure process variables such as temperature, pressure, and flow. It also has 8 digital input channels, which can be used to detect the status of sensors and switches. The module has 8 analog output channels, which can be used to control devices such as valves, motors, and heaters. It also has 8 digital output channels, which can be used for on/off control of devices.

Communication Protocol: The 8V1010.50-2 Controller Module supports the MODBUS communication protocol, which is an open standard that allows for communication between devices over a serial connection. This protocol provides a reliable and efficient means of transmitting data between the module and other devices in the control system.

Programming: The module is programmed using ladder logic programming, which is a graphical programming language commonly used in industrial control systems. The programming software is user-friendly and allows for easy configuration of the control functions and parameters.

Power Supply: The module is designed to operate on a 24V DC power supply. It has a built-in power supply module that converts the incoming voltage to the required level for the inputs and outputs.

Mounting: The module is designed for easy mounting on a standard DIN rail, which is a common type of mounting rail used in industrial control systems.

Overall, the 8V1010.50-2 Controller Module provides a range of control functions and inputs/outputs that can be configured to meet the needs of a variety of industrial processes and systems. Its accuracy, reliability, and ease of programming make it a valuable component in industrial control systems.

By April 25, 2023 0
GE DS3800HXRC Automation Module Details Introduction
Industry trends

GE DS3800HXRC Automation Module Details Introduction

Here are the parameter specifications for the GE DS3800HXRC automation module:

  1. Processing:
  • 32-bit microprocessor architecture
  • Advanced control algorithms
  1. Communication:
  • Multiple communication ports supporting Ethernet and serial communication protocols
  1. Redundancy:
  • Redundant processors, memory, and power supplies for high availability
  1. Diagnostic Features:
  • Self-diagnostics and fault reporting capabilities
  1. Input/Output:
  • 16 digital inputs
  • 16 digital outputs
  • 8 analog inputs
  • 8 analog outputs
  1. Power Requirements:
  • Voltage: 120/240 VAC
  • Frequency: 50/60 Hz
  • Power consumption: 300 watts maximum
  1. Operating Temperature:
  • 0 to 50 degrees Celsius (32 to 122 degrees Fahrenheit)

The GE DS3800HXRC is an automation module that is used in industrial control systems. This module is part of the Mark IV control system family and is designed to provide precise and reliable control for a wide range of industrial applications.

The DS3800HXRC module is based on a 32-bit microprocessor architecture and features advanced control algorithms that can handle complex control tasks with ease. It is equipped with multiple communication ports that support a variety of communication protocols, including Ethernet and serial communications, making it easy to integrate into existing industrial control systems.

The DS3800HXRC module is designed for high availability, with redundant processors, memory, and power supplies that ensure uninterrupted operation even in the event of a hardware failure. It also features advanced diagnostic capabilities, including self-diagnostics and fault reporting, which can help to quickly identify and address any issues with the system.

Overall, the GE DS3800HXRC automation module is a powerful and reliable solution for industrial control applications that require precise, reliable control in a highly available system.

Note: Please ensure that you have the required technical knowledge and training before attempting to install or replace any industrial control system components.

By April 24, 2023 0
GE DS3800NADB1B Controller Module Details Introduction
Industry trends

GE DS3800NADB1B Controller Module Details Introduction

Here are the specification parameters for the GE DS3800NADB1B controller module:

  1. Processing:
  • 32-bit microprocessor architecture
  • Advanced control algorithms
  1. Communication:
  • Multiple communication ports supporting Ethernet and serial communication protocols
  1. Redundancy:
  • Redundant processors, memory, and power supplies for high availability
  1. Diagnostic Features:
  • Self-diagnostics and fault reporting capabilities
  1. Input/Output:
  • 16 digital inputs
  • 16 digital outputs
  • 8 analog inputs
  • 4 analog outputs
  1. Power Requirements:
  • Voltage: 120/240 VAC
  • Frequency: 50/60 Hz
  • Power consumption: 300 watts maximum
  1. Operating Temperature:
  • 0 to 50 degrees Celsius (32 to 122 degrees Fahrenheit)
  1. Module Dimensions:
  • 10.25 x 13.5 x 7 inches (260 x 343 x 178 mm)
  1. Certifications:
  • CE, cULus, and ATEX approved

The GE DS3800NADB1B is a controller module used in industrial control systems. It is part of the Mark IV control system family and is designed to provide reliable and precise control for a wide range of industrial applications.

The DS3800NADB1B controller module is based on a 32-bit microprocessor architecture and features advanced control algorithms that can handle complex control tasks with ease. It is equipped with multiple communication ports that support a variety of communication protocols, including Ethernet and serial communications, making it easy to integrate into existing industrial control systems.

The DS3800NADB1B module is designed for high availability, with redundant processors, memory, and power supplies that ensure uninterrupted operation even in the event of a hardware failure. It also features advanced diagnostic capabilities, including self-diagnostics and fault reporting, which can help to quickly identify and address any issues with the system.

Overall, the GE DS3800NADB1B controller module is a powerful and reliable solution for industrial control applications that require precise, reliable control in a highly available system.

Note: Please ensure that you have the required technical knowledge and training before attempting to install or replace any industrial control system components.

By April 24, 2023 0
GE DS3800HMPJ Card Module Details Introduction
Industry trends

GE DS3800HMPJ Card Module Details Introduction

Here are the specification parameters for the GE DS3800HMPJ card module:

  1. Input Channels:
  • Analog Inputs: 24 channels, 0-10V DC, 4-20mA
  • Digital Inputs: 32 channels, 24V DC
  • Serial Communication Ports: 2 channels
  1. Output Channels:
  • Analog Outputs: 8 channels, 0-10V DC, 4-20mA
  • Digital Outputs: 32 channels, 24V DC
  • Serial Communication Ports: 2 channels
  1. Processor: 32-bit RISC processor
  2. Memory: 32 MB flash memory, 32 MB SDRAM
  3. Operating Temperature: -40 to 70 degrees Celsius (-40 to 158 degrees Fahrenheit)
  4. Power Consumption: 20 watts
  5. Module Dimensions: 11.5 x 9.5 x 1.5 inches (292 x 241 x 38 mm)
  6. Certifications: CE, cULus, ATEX, IECEx, and KC approved
  7. Communication: Supports multiple communication protocols, including Modbus, Ethernet, and RS-232
  8. Diagnostic Features: Built-in self-diagnostic and fault reporting capabilities

    The GE DS3800HMPJ card module is a control module that is used in industrial automation systems. It is part of the GE Speedtronic Mark VI gas turbine control system and is designed to control and monitor various aspects of gas turbine operations.

    The DS3800HMPJ module has a number of input/output channels, including analog inputs and outputs, digital inputs and outputs, and serial communication ports. The module is capable of processing data quickly and accurately, allowing for precise control of gas turbine operations.

    The module is designed to operate in harsh industrial environments and is built to withstand extreme temperatures, vibrations, and other challenging conditions. It is also equipped with self-diagnostic and fault reporting capabilities, which can help to quickly identify and address any issues with the system.

    Overall, the GE DS3800HMPJ module is a reliable and high-performance solution for gas turbine control and monitoring in industrial applications.

By April 24, 2023 0
  • Shop by category
Main Menu
Back to Top

Search For Products

Popular searches
Product has been added to your cart