YASKAWA JANCD-MCP02B-1 Yaskawa Circuit Board

YASKAWA JANCD-MCP02B-1 circuit board

Product Overview

YASKAWA JANCD-MCP02B-1 is a specialized industrial communication circuit board launched by Yaskawa (YASKAWA) brand. Its core positioning is communication control and system interconnection for general purpose frequency converters such as A1000 series. It has strong multi protocol compatibility, high-speed data exchange, and equipment collaborative control capabilities, and can realize the communication control and system interconnection between frequency converters and control centers PLC、 Seamless communication among multiple nodes such as the upper computer enables precise transmission of control commands and operational data, including speed regulation and load monitoring. This circuit board adopts a modular structure design and is compatible with Yaskawa Industrial ™ The series of control systems and mainstream industrial automation equipment support live plugging and redundant configuration, with excellent environmental adaptability and operational stability. They are the core components for improving the communication efficiency of frequency converter control systems, optimizing the synergy of industrial transmission systems, and ensuring stable and efficient production processes. At present, there is sufficient stock supply of this type of circuit board, which can meet diverse needs such as supporting new frequency converters, upgrading existing transmission system communication, and equipment maintenance.

Specification parameters

-Core electrical parameters: rated voltage DC 24V, rated power consumption ≤ 28W; equipped with high-performance communication processor, supporting multi protocol parallel processing, single channel data transmission rate up to 100Mbps; Working temperature range -10 ℃~60 ℃, relative humidity ≤ 90% RH (no condensation), suitable for complex environments in industrial transmission workshops, ensuring stable operation; Compatible with A1000 series frequency converters, it can meet the load control requirements in the power range of 5.5kW to 90kW.

-Communication interface and protocol: standard industrial Ethernet (EtherNet/IP) and RS-485 communication interface, supporting mainstream industrial communication protocols such as Profibus DP and Modbus RTU; Equipped with a dedicated communication adaptation module for frequency converters, it can achieve rapid integration with A1000 series frequency converters, support precise transmission of specialized data such as speed commands, load currents, and fault states, and adapt to the equipment interconnection requirements of industrial transmission systems.

-Communication performance: Supports up to 128 node devices to access simultaneously, with automatic protocol recognition and conversion functions, and can achieve transparent data transmission between frequency converters and devices with different protocols; Built in data caching and verification mechanism, data transmission error rate ≤ 10 ⁻⁹, ensuring the integrity and accuracy of control instructions and operational data; Equipped with communication fault automatic switching function, coupled with redundant configuration, it can achieve uninterrupted switching of communication links, ensuring the continuous operation of the transmission system.

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

-Physical parameters: Weight approximately 680g, size in accordance with Yaskawa standard frequency converter installation specifications (125 × 155 × 85mm); The protection level reaches IP20, suitable for installation environment inside industrial control cabinets, effectively preventing dust and foreign objects from entering, and suitable for transmission control workshop scenarios with loads such as fans and water pumps.

Performance characteristics

-Multi protocol compatibility and dedicated adaptation for frequency converters: With rich communication interfaces and protocol support capabilities, seamless interconnection between frequency converters and control devices of different brands and protocols can be achieved without the need for customized interface development, reducing the complexity of transmission system integration; Built in dedicated communication driver for frequency converters, which can quickly adapt to general frequency converters such as A1000 series, achieving plug and play communication and greatly improving the flexibility of transmission system expansion.

-Strong environmental adaptability and high reliability: using industrial grade high stability components and anti-interference circuit design, it has good electromagnetic interference suppression ability. Through electromagnetic compatibility (EMC) testing, it can operate stably in complex electromagnetic environments such as industrial transmission workshops; Supports power redundancy and communication link redundancy, with complete power fluctuation suppression function, adapts to slight voltage fluctuations in industrial power grids, and ensures continuous and reliable communication between frequency converters and control centers.

-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 convenient maintenance: equipped with comprehensive fault self diagnosis function, it can detect communication link interruption, protocol mismatch, node offline abnormality, power failure, and frequency converter communication abnormality in real time, send alarm signals through LED indicator lights and communication interfaces, and record fault codes; Support live plugging and online replacement, the module can automatically identify and configure the frequency converter adaptation parameters, and maintenance can be completed without stopping the machine, greatly reducing downtime losses; Support real-time storage and export of communication logs and frequency converter operation data, providing data support for system maintenance and transmission optimization.

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

Application scenarios

-Variable frequency drive control system: The A1000 series variable frequency drive system is suitable for industries such as chemical, power, and municipal. It is responsible for multi protocol communication and data exchange between the variable frequency drive and the control center, achieving speed regulation, operation status monitoring, and precise control of loads such as fans and pumps, ensuring stable transmission processes.

-Industrial transmission equipment interconnection scenario: widely used in intelligent factory transmission equipment interconnection scenarios, realizing frequency converters PLC、 The communication interconnection and data sharing of different types of devices such as monitoring systems provide data transmission support for load scheduling, energy consumption monitoring, and fault warning, enhancing the intelligence level of transmission systems.

-Upgrading communication of existing transmission systems: In response to the communication bottleneck of existing frequency converter transmission systems, old communication circuit boards can be directly replaced to upgrade from traditional protocols to standardized and high-speed protocols, improve the data transmission efficiency between frequency converters and control systems, extend the service life of transmission equipment, and adapt to the development needs of modern industrial automation.

-Cross system transmission data integration: Adapt to the cross domain data integration requirements of enterprise IT systems and industrial OT systems, achieve seamless transmission of frequency converter operation data and load energy consumption data to the management system through multi protocol conversion and standardized communication capabilities, and support the optimization and digital management upgrade of enterprise transmission systems.