Engineered for seamless integration with Schneider’s Modicon Quantum Automation Platform, the 140DDI35300C Discrete Input Module delivers reliable and efficient signal processing, essential for modern industrial control systems.
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Engineered for seamless integration with Schneider’s Modicon Quantum Automation Platform, the 140DDI35300C Discrete Input Module delivers reliable and efficient signal processing, essential for modern industrial control systems.
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Product Type:Discrete Input Module
Product ID:140DDI35300C
Schneider Type Designation:Modicon Quantum Automation Platform
Module Designation:Low Voltage DC
Discrete Input Number:32
Group of Channels:4
Discrete Input Voltage:24V DC
Input Voltage Limits:19.2…30V
Input Impedance:2500 Ohm
Maximum Leakage Current:200mA at Us = 5.5V and Uin = 4V
Absolute Maximum Input:Continuous 30V, 56V during 1.3ms decaying pulse
Power Dissipation:1.7W + (0.36 x number of points on)
Bus Current Requirement:330mA
Product Weight:0.66lb (US) / 0.3kg
Engineered for durability and long-term reliability, the Schneider 140DDI35300C Discrete Input Module is built to withstand harsh industrial environments, ensuring uninterrupted operation in diverse manufacturing settings.
Each channel within this module is equipped with advanced protection mechanisms against overvoltage and overcurrent, safeguarding against potential damage caused by unexpected electrical fluctuations.
This module is part of the Modicon Quantum automation platform, offering seamless integration with other Schneider Electric products and third-party systems through its comprehensive range of control and monitoring capabilities.
With its high input resolution and accuracy, this module ensures precise signal acquisition, making it ideal for applications where high precision is critical, such as in robotics, machinery control, and process automation.
The Schneider 140DDI35300C Discrete Input Module comes with a user-friendly interface and robust diagnostics tools, facilitating easy installation, configuration, and maintenance, thereby reducing downtime and enhancing operational efficiency.
