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The core parameters of the HITACHI LYD105A Hitachi module are as follows:

1¡B Module type and function

Redundant control module

System redundancy: Supports hot backup of two or more control modules, automatically switching to the backup module in case of failure.

Fault diagnosis: Real time monitoring of system status, triggering alarms upon discovering faults.

Automatic switching: seamlessly switch to the backup module when a fault occurs, ensuring continuous operation of the system.

Process control: Suitable for process control systems in chemical, metallurgical, and other industries, as well as automation requirements in fields such as electricity, transportation, and water treatment.

Design purpose: Specially designed for industrial automation systems, improving system reliability and availability through hot backup redundancy mechanism, ensuring continuous and stable operation of the system in the event of a single module failure.

Core functions:

Servo controller (some models)

Control principle: Adopting microcomputer PID active control and automatic adjustment, with an accuracy of ¡Ó 0.5 ¢J (display ¡Ó 1 ¢J).

Display function: Dual row LED digital display, supporting fault alarm and real-time load current value display.

Output capability: Can be configured with 3.6KW/16A to 6KW/30A electric heating power, modular output control.

Thermocouple support: compatible with multiple thermocouple types such as J-type, K-type, E-type, etc.

Protection mechanism: equipped with overheat protection, overcurrent protection, and low voltage protection functions.

2¡B Performance parameters

Processor and response speed

Processor type: High performance processor, ensuring fast data processing and response capabilities.

Response frequency: up to 200Kpps, meeting high-speed control requirements.

Subdivision angle: Supports 12/8 constant torque subdivision to improve control accuracy.

Signal Processing and Accuracy

Drive current: continuously adjustable from 0.0A/phase to 3.0A/phase, suitable for different load requirements.

Control mode: Bipolar constant current chopper mode to improve motor output speed and power.

Signal isolation: Optoelectronic blocking of input/output enhances anti-interference ability.

Electrical parameters

Input voltage: single power input, range DC12-40V.

Power configuration: Supports modular output of 3.6KW/16A to 6KW/30A electric heating power.

Current accuracy: The current control accuracy reaches ¡Ó 0.1A, ensuring system stability.

3¡B Environmental adaptability

Protection level: Some models reach IP65/IP67, suitable for harsh industrial environments such as dust and humidity.

Working temperature: Conventional models are suitable for environments between 0-50 ¢J, while some special models can be extended to a wider temperature range.

Anti interference capability: Adopting shielding design and filtering circuit, effectively suppressing electromagnetic interference (EMI).

4¡B Communication and Expansion Functions

Communication interface: Supports various industrial bus protocols such as Ethernet and CANbus, facilitating interconnection with other devices.

Scalability: Modular design, supporting DIN rail installation, making it easy to flexibly configure input/output channels according to needs.

System Integration: Compatible with HITACHI HIACS series distributed control systems, capable of exchanging data with the upper computer, achieving remote monitoring and centralized management.

5¡B Typical application scenarios

Industrial automation

Mechanical control: Monitor sensor signals, execute control logic, and drive actuators to complete automated operations.

Process control: Real time adjustment of valves, pumps, and other equipment to optimize production processes in fields such as chemical engineering and electricity.

Building automation

Intelligent management: integrated into the Building Management System (BMS) to achieve intelligent control and energy optimization of lighting, air conditioning, security and other equipment.

Intelligent Transportation System

Traffic control: applied to rail transit and airport automation systems to optimize traffic signal and road monitoring management.

Automation of water treatment

Wastewater treatment: Monitor water quality parameters, automatically adjust treatment equipment, and improve wastewater treatment efficiency and stability.