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  • YASKAWA JAMSC-B1050 Industrial Control Module
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  • YASKAWA JAMSC-B1050 Industrial Control Module

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia

    YASKAWA JAMSC-B1050 is a high-performance industrial control module launched by Yaskawa (YASKAWA) brand, designed specifically for medium and high-power industrial automation control systems. Its core positioning is the signal interaction and power drive core unit for scenarios such as CNC equipment, industrial robots, power plant and steel plant DCS systems. This module integrates integrated functions such as signal conversion, control command adaptation, power amplification, and safety monitoring, which can achieve precise linkage between the upper controller and on-site mobile motors and other execution equipment. Through industrial grade high reliability components and reinforced shielding structure design, it has high power carrying capacity, fast speed response, and excellent electromagnetic interference resistance. Its standardized installation interface and wide compatibility enable seamless integration into various mainstream industrial automation control systems, providing core support for stable operation, precise control, and safety protection of the system. It is a key adaptation module for medium and high-power industrial control scenarios.

    • ¥17833.00
      ¥19045.00
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    Weight:0.210KG
    • Quantity:
    • (Inventory: 99999)
Description

YASKAWA JAMSC-B1050 is a high-performance industrial control module launched by Yaskawa (YASKAWA) brand, designed specifically for medium and high-power industrial automation control systems. Its core positioning is the signal interaction and power drive core unit for scenarios such as CNC equipment, industrial robots, power plant and steel plant DCS systems. This module integrates integrated functions such as signal conversion, control command adaptation, power amplification, and safety monitoring, which can achieve precise linkage between the upper controller and on-site mobile motors and other execution equipment. Through industrial grade high reliability components and reinforced shielding structure design, it has high power carrying capacity, fast speed response, and excellent electromagnetic interference resistance. Its standardized installation interface and wide compatibility enable seamless integration into various mainstream industrial automation control systems, providing core support for stable operation, precise control, and safety protection of the system. It is a key adaptation module for medium and high-power industrial control scenarios.


YASKAWA JAMSC-B1050 Industrial Control Module

Product Overview

YASKAWA JAMSC-B1050 is a high-performance industrial control module launched by Yaskawa (YASKAWA) brand, designed specifically for medium and high-power industrial automation control systems. Its core positioning is the signal interaction and power drive core unit for scenarios such as CNC equipment, industrial robots, power plant and steel plant DCS systems. This module integrates integrated functions such as signal conversion, control command adaptation, power amplification, and safety monitoring, which can achieve precise linkage between the upper controller and on-site mobile motors and other execution equipment. Through industrial grade high reliability components and reinforced shielding structure design, it has high power carrying capacity, fast speed response, and excellent electromagnetic interference resistance. Its standardized installation interface and wide compatibility enable seamless integration into various mainstream industrial automation control systems, providing core support for stable operation, precise control, and safety protection of the system. It is a key adaptation module for medium and high-power industrial control scenarios.


Specification parameters

Based on the technical standards of Yaskawa Industrial Automation series products and the general design specifications for industrial control components, the core specification parameters of YASKAWA JAMSC-B1050 are as follows:

-Job Description: Medium to high power industrial control module, integrating signal conversion, control instruction adaptation, power amplification, and safety monitoring functions

-Suitable motor type: Mobile motor, capable of meeting the drive adaptation requirements of conventional industrial power equipment

-Rated power: 3600kW, with strong power carrying capacity, suitable for medium and high power industrial equipment

-Rated voltage: 220V, in line with conventional industrial power supply standards, compatible with mainstream industrial power supply architectures

-Speed response frequency: 30Hz, with stable speed response characteristics, ensuring the accuracy of equipment control

-Product certification: Complies with the general certification standards for industrial automation products and relevant IEC specifications, has clear safety level classification, and ensures the safety and reliability of use

-Adaptation scenarios: seamless integration with CNC equipment servo systems, automotive enterprise robotic arms, power plant and steel plant DCS systems, etc

-Working environment: temperature -10 ℃~60 ℃, relative humidity ≤ 90% RH (no condensation); Storage temperature -20 ℃~70 ℃

-Insulation level: Insulation voltage between terminals and between components and casing ≥ 2000VAC, insulation resistance ≥ 100M Ω (500V DC)

-Mechanical strength: possessing excellent resistance to vibration and impact (in compliance with industrial site mechanical environmental standards); Supports 35mm standard rail installation (compliant with IEC 60715 specification), with an installation interface plug and unplug life of ≥ 100 times

-Electromagnetic compatibility: Complies with the IEC 61000-4 series of industrial electromagnetic compatibility standards and has strong resistance to electromagnetic interference

-Customized processing: Non customized standard industrial products that can directly adapt to the needs of conventional industrial control scenarios

-Protection features: It has overvoltage protection, overcurrent protection, and overheating protection functions, which can effectively prevent damage caused by equipment failure or abnormal working conditions


Performance characteristics

-High power carrying and stable driving: With a rated power of 3600kW, it can be adapted to medium to high power motor and industrial execution equipment, with stable power output characteristics, ensuring reliable power support during equipment operation.

-Excellent speed response performance: The speed response frequency is 30Hz, which can quickly respond to the speed adjustment instructions of the upper controller, reduce control delay, and improve the accuracy and flexibility of equipment control.

-Strong environmental adaptability and reliability: Adopting industrial grade high specification components and reinforced structural design, it can work stably for a long time in a wide temperature range of -10 ℃~60 ℃ and high humidity environment, with excellent anti vibration and anti impact capabilities, adapting to complex industrial site environments.

-Wide compatibility and convenient integration: It can seamlessly integrate with various industrial automation scenarios such as CNC equipment servo systems, industrial robots, DCS control systems, etc. The installation interface is standardized, and the integration efficiency is high, without the need for additional complex configurations.

-Comprehensive security protection mechanism: Built in multiple protection circuits for overvoltage, overcurrent, and overheating. When abnormal power supply, load overload, or high component temperature rise is detected, the relevant circuits can be quickly cut off to protect the safety of oneself and related equipment and reduce fault losses.

-Strong anti-interference and insulation performance: compliant with industrial electromagnetic compatibility standards, it can effectively block the impact of electromagnetic interference on signal transmission and power output in industrial sites; High level insulation design ensures electrical safety during component operation.


Working principle

The YASKAWA JAMSC-B1050 core is based on the working logic of "signal reception power matching drive output safety monitoring". As a key intermediate adaptation and driving component in industrial automation systems, its core function is to achieve precise conversion of control instructions and power amplification from the upper controller, provide stable power drive for on-site execution equipment, and ensure system operation safety through real-time monitoring mechanism.

The specific workflow is as follows: Firstly, the control signals (such as motor start stop and speed adjustment commands) sent by the upper controller (such as DCS system, CNC system controller) are connected to the signal input terminal of YASKAWA JAMSC-B1050; The internal signal processing unit of the component converts and amplifies the received control signal, and completes power matching with the executing equipment (motor) according to preset parameters; Subsequently, the processed driving signal and power current are transmitted to the on-site motor through the power output terminal, and the driving motor operates according to the control instructions; Throughout the entire working process, the built-in monitoring unit of the component continuously monitors the power supply voltage, output current, and its own temperature rise status in real time to ensure that all parameters are within the normal working range; When abnormal operating conditions such as overvoltage, overcurrent, and overheating are detected, the protection circuit quickly starts, cuts off the power output circuit, and feeds back a fault signal to the controller; In addition, the high anti-interference design of the components ensures that control signals and power transmission are not interfered with in the strong electromagnetic environment of industrial sites, maintaining the stability of equipment operation and the accuracy of control.

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