ABB GJR5252590B0001 Connector Pack for ABB 07 KT 94-98 CPUs

ABB GJR5252590B0001 Connector Pack for ABB 07 KT 94-98 CPUs

Product Overview

Product name: ABB GJR5252590B0001 is a Connector Pack, designed for use with ABB 07 KT 94 - 98 series CPUs.

Purpose: This connector pack plays a vital role in connecting the entire system, acting as a bridge that physically connects and signals the CPU to other external devices, modules, or subsystems to ensure that the CPU is able to properly communicate and interact with the outside world.

Performance Characteristics

Compatibility and Adaptability

Precise adaptation: specifically designed for use with ABB 07 KT 94 - 98 CPUs, ensuring a high degree of compatibility with these specific CPU models. This precise adaptation means that the physical dimensions, pin definitions and signalling requirements are perfectly matched to the target CPU, preventing signalling problems or damage to the device due to incompatible connections.

System integration benefits: Because it is adapted to a specific CPU family, the connector package simplifies system integration when building industrial automation systems or control equipment containing these CPUs. It seamlessly connects to other ABB components in the system (e.g., input/output modules, communication modules, etc.), helping to build a stable and efficient overall system.

Connection quality and reliability

High-quality connector materials: Connectors are manufactured using high-quality materials that have good electrical conductivity, corrosion resistance and mechanical strength. For example, the pins of the connector may be gold-plated to improve conductivity and prevent oxidation, ensuring the quality and stability of signal transmission. Shell materials may have good abrasion resistance and chemical resistance, can be used for a long time in industrial environments without performance degradation.

Robust Connection Mechanisms: Reliable connection mechanisms are available to maintain the stability of the connection in the presence of vibration, shock, and other disturbances common to industrial environments. For example, the connector may have a locking device or anti-loosening design to ensure that the connection between the plug and socket is tight and will not be easily loosened, thus ensuring the continuity of the signal transmission and reducing the equipment failure caused by poor connection.

Signal Transmission Performance

High-speed signal transmission support: It can meet the requirements of high-speed signal transmission to adapt to the needs of modern industrial control systems in the rapid exchange of large amounts of data. It can support a variety of signal types, including the transmission of digital signals (such as control instructions, status feedback, etc.) and analogue signals (such as analogue data collected by sensors). For high-speed digital signals, its transmission bandwidth and signal integrity can meet the rapid communication between the CPU and other devices, for example, in real-time monitoring and control scenarios, to ensure that the data can be timely and accurately transmitted between the CPU and external devices.

Signal isolation and anti-interference: In order to cope with electromagnetic interference (EMI) and radio frequency interference (RFI) in industrial environments, this connector package may adopt signal isolation technology. Through isolation measures, external interference signals can be effectively prevented from entering the CPU or other sensitive equipment, and internal signals can also be avoided to radiate outward to interfere with other equipment. This helps to improve the electromagnetic compatibility (EMC) of the entire system and ensures stable operation in complex industrial electromagnetic environments.

Application Areas

Industrial automation control systems

PLC (Programmable Logic Controller) System: As a key component connecting the CPU to the input/output modules in the PLC system, PLC is used to control the automated operation of various industrial equipments, such as motors, valves, conveyor belts and other equipments in the automated production line. Through this connector package, the CPU is able to accurately receive data from the input module (e.g. sensor signals) and send control instructions to the output module (e.g. to control the starting and stopping of motors, the opening of valves, etc.) to realise the precise control of industrial equipment.

DCS (Distributed Control System): In a DCS system, it is used to connect the central CPU with distributed field control units or remote I/O nodes.DCS is widely used in process control fields such as chemical, electric power, petroleum, etc. This connector package ensures reliable communication between the central control unit and individual field devices in complex industrial environments. For example, in the chemical production process, it can ensure the data transmission between the CPU and the control units of reactors, pipelines, pumps and other equipments, and realise the decentralised control and centralised management of the whole production process.

Industrial computer and monitoring system

Industrial Computer Interface Expansion: In the industrial computer, it is used to expand the interface of the CPU and connect external devices such as hard disc, optical drive, USB device, etc. The industrial computer is used to run industrial control software, to control the production process, and to control the production process. Industrial computers are used to run industrial control software, data acquisition and analysis software, etc. Through this connector package, the interface function of the computer can be increased to facilitate the user to connect a variety of storage devices and external input/output devices to meet the needs of different industrial applications.

Human Machine Interface (HMI) Connection: establishes a connection between the Human Machine Interface (HMI) device and the CPU. the HMI device is used for the interaction between the operator and the industrial equipment, displaying the status of the equipment and receiving commands from the operator through a graphical interface. This connector package ensures smooth communication between the HMI device and the CPU, enabling the operator to obtain timely and accurate information about the device and perform control operations.

Technical specifications (presumed)

Physical Specifications

Size and Form Factor: The size of the connector package varies depending on the CPU and application scenarios to which it is adapted. It may have a compact form factor to fit into a limited space inside a control cabinet or device. For example, the length may be between a few centimetres and a dozen centimetres, and the width and height will be designed according to the specific number of connectors and layout, and will generally be within a reasonable range for ease of installation and integration.

Number of Pins and Layout: The number of pins and layout depends on the CPU to which it is connected and the functions it needs to support. There may be dozens to hundreds of pins, which are arranged according to a certain standard or custom layout to ensure proper connection to the CPU and other devices. Pin spacing may conform to industry standards, such as the common 2.54mm (0.1 inch) or denser spacing for high density connections.