YOKOGAWA CP451-50 is a controller/recorder, the following is a detailed description of its parameters, specifications, dimensions, weight, series, features and functions:
Parameters and specifications:
Processor speed: 10 MHz.
Memory capacity: 64 KB RAM and 32 KB EPROM.
Input/output points: Expandable up to 256 input and 256 output points.
Communication interface: Support a variety of communication protocols, such as Modbus, ASCII, RTU, etc., can easily communicate with other devices.
Programming language: Support a variety of programming languages, such as instruction table (IL), ladder diagram (LD), function diagram (FC), structured text (ST), etc., can choose the most suitable programming method according to actual needs.
Working voltage: 24V DC.
Operating temperature range: 0℃ to 55℃.
Size and weight:
Weight: About 1.53kg.
Series:
The YOKOGAWA CP451-50 belongs to the YOKOGAWA family of controllers/recorders.
Features:
High reliability: Using high-quality components and advanced manufacturing processes, the module has excellent reliability and stability, and can work in harsh industrial environments.
Easy to use: With a simple user interface and easy to learn programming language, control tasks can be quickly implemented.
Scalability: Support a variety of expansion options, you can easily expand the input and output points and communication interfaces to meet different application needs.
A variety of safety protection mechanisms: including input and output point overcurrent protection, overheat protection, etc., to ensure the safety of equipment and personnel.
Support for a variety of communication protocols: such as Modbus, Ethernet, etc., can communicate and integrate with different types and brands of devices.
Self-diagnosis and protection function: Potential faults and anomalies are detected and appropriate measures are taken to ensure the safe and stable operation of the system.
Functions:
The YOKOGAWA CP451-50 controller/logger is designed for data acquisition, processing and control in industrial automation systems.
It is also applicable in the field of energy management, which can be used to monitor and analyze energy consumption and improve energy efficiency.
In the environmental monitoring system, it can be used to monitor and record environmental parameters in real time, such as temperature, humidity, pressure, etc.
In scientific research experiments, it can be used for data collection and recording to provide accurate data support for experiments.
