YASKAWA JAMSC-C8120 Industrial Control Module

YASKAWA JAMSC-C8120 Industrial Control Module

Product Overview

YASKAWA JAMSC-C8120 is a high-performance industrial control module launched by Yaskawa (YASKAWA) brand. Its core positioning is multi device collaborative control and signal processing for automated production lines. It has powerful command parsing, data acquisition, and linkage control capabilities, and can achieve precise driving and status monitoring of various actuators. This module adopts a standardized rack structure design and is compatible with automation equipment such as PLCs and sensors from Yaskawa and mainstream brands. It supports seamless integration into existing control systems and has excellent environmental adaptability and operational stability. It is a core component for improving industrial production automation and ensuring smooth and efficient production processes. At present, there is sufficient stock supply of this model module, which can meet diverse needs such as new system construction, existing system upgrades, and equipment maintenance.

Specification parameters

-Core electrical parameters: rated voltage AC 100-240V, rated frequency 50/60Hz; supports maximum output current 8A, suitable for various low and medium power actuators; The control accuracy reaches 0.1% FS, ensuring precise execution of signal processing and control instructions.

-Control interface: Standard RS-485 communication interface, supporting Modbus RTU standard communication protocol; Optional EtherNet/IP industrial Ethernet interface is available to achieve multi module distributed control and high-speed data exchange, adapting to automation systems of different complexities.

-Output performance: It has dual modes of relay output and transistor output, with relay output capacity of AC 250V/5A and DC 30V/5A, and transistor output response time ≤ 1ms. It supports multi-channel parallel output and can simultaneously drive multiple actuators to meet complex linkage control requirements.

-Certification standards: Passed CE and UL international safety certifications, in compliance with industrial equipment safety operation standards.

-Physical parameters: Weight approximately 850g, size in accordance with IEC standard rack installation specifications (100 × 150 × 200mm); The protection level reaches IP20, suitable for the conventional installation environment inside industrial control cabinets, effectively preventing dust and foreign objects from entering.

Performance characteristics

-High precision collaborative control: Equipped with advanced signal filtering and amplification circuits, the data acquisition accuracy is high, and the control command response is fast; Supporting multi module synchronous control and master-slave control mode, it can achieve precise collaboration among multiple production lines or multiple actuators, greatly improving the synchronization and stability of the production process.

-Wide environmental adaptability: using industrial grade high stability components and reinforced circuit design, operating temperature range -10 ℃~60 ℃, relative humidity ≤ 90% RH (no condensation); Has good resistance to electromagnetic interference and can operate stably in complex electromagnetic environments such as machine tool processing and chemical workshops through electromagnetic compatibility (EMC) testing.

-Convenient integration and debugging: Provides detailed installation guidance and simplified setup process, supports seamless compatibility with various industrial automation systems, and can efficiently complete integration whether building new systems or upgrading old systems.

-Comprehensive fault diagnosis and data management: Equipped with a comprehensive fault monitoring circuit, it can detect real-time fault states such as overcurrent, overvoltage, overload, and abnormal wiring, and send alarm signals through indicator lights and communication interfaces; Support real-time storage and export of operational data, including key data such as runtime, fault history, and load changes, providing data support for equipment maintenance and production optimization.

-Safety compliance: Complies with international safety standards and electromagnetic compatibility requirements, comes with a comprehensive electrical protection design, and reduces equipment operational risks.

Working principle

The YASKAWA JAMSC-C8120 industrial control module serves as the core control and signal processing unit of the automation system, and its working principle is based on the full process control logic of "signal acquisition instruction parsing drive output status feedback fault monitoring". Firstly, the module receives on-site signals (such as position, pressure, temperature, etc.) from sensors, encoders, and other devices through input interfaces, and also receives control instructions from upper level controllers (PLC, industrial computer) through communication interfaces; Subsequently, the internal core processor filters, amplifies, and performs arithmetic processing on the collected signals, and combines control instruction analysis to generate accurate driving signals; Next, the driving signal is transmitted to actuators such as relays, contactors, servo drives, etc. through the output interface to control their actions according to the set process; At the same time, the module collects real-time operating status signals of the executing mechanism and feeds them back to the upper controller, forming a closed-loop control to ensure control accuracy; In addition, the internal fault monitoring circuit continuously monitors the operating status of the module itself and external devices. Once an abnormality is detected, an alarm is immediately triggered and fault information is recorded to ensure the safe operation of the system.

Precautions

-Voltage matching and power protection: Before installation, it is necessary to confirm that the power supply voltage is within the rated range of the module (AC 100-240V) to avoid voltage fluctuations beyond the allowable range; It is recommended to install a surge protector at the power input end to prevent damage to the internal circuit of the module caused by grid surge voltage; When not in use for a long time, the power should be disconnected to avoid component aging caused by standby current.

-Safety operation regulations: When wiring, repairing or replacing components, the power must be disconnected first, and touching the terminals while powered on is strictly prohibited to prevent electric shock accidents.

-Correct wiring and interface protection: strictly follow the wiring manual to distinguish between input, output, and communication interfaces. It is strictly prohibited to connect power to signal interfaces to avoid permanent damage to the module; Ensure that the terminals are securely fastened during wiring to prevent loose connections that may cause poor contact or sparking; In dusty and humid environments, sealed joints should be installed for interfaces, and shielded cables should be used for communication cables to reduce signal interference.

-Standardize grounding settings: The grounding terminals must be strictly connected according to local grounding regulations to avoid sharing grounding with welding machines, motors, and other equipment. When multiple modules are used side by side, they must be independently grounded, and grounding wire circuits are prohibited to prevent electric shock or fire risks.

-Professional operation: The parameter setting, system integration, and fault maintenance of modules need to be completed by professional technicians to avoid system failures or equipment damage caused by non professional operations.