Operating Voltage:24V DC
Current Capacity:3A per channel
Number of Channels:16
Input Type:Digital
Output Type:Digital
Communication Interface:RS-485
Operating Temperature Range:-20°C to +70°C
Enclosure Type:IP20
Mounting Type:Panel
Dimensions (Width x Height x Depth):2.8 x 4.0 x 1.4 inches
Weight:0.15 lbs
The GE 1769-SDN scanner module is a cornerstone of advanced industrial automation systems, designed to enhance efficiency and reliability in complex manufacturing environments. It integrates seamlessly with existing systems, supporting both ladder logic and structured text programming paradigms to offer unparalleled flexibility in control logic design.
With its advanced instruction set, the module facilitates file handling, sequencer operations, diagnostics, shift registers, immediate I/O, and program control, making it an indispensable tool for automating critical processes. The inclusion of processor input interrupts and global status flags ensures real-time monitoring and quick response to system events, preventing downtime and optimizing operational continuity.
The programmable fault response feature is particularly noteworthy, allowing users to customize the module’s behavior in the event of a system anomaly, ensuring minimal disruption and rapid recovery. The timed interrupt routine feature enables precise data acquisition at predefined intervals, enhancing the accuracy and responsiveness of the system.
For networking, the module offers robust Ethernet connectivity, adhering to the TCP/IP standard for seamless integration with third-party equipment. The use of MODBUS TCP Server/Client protocol ensures compatibility with a wide range of devices, facilitating easy setup and management of network configurations.
One of the key advantages of the GE 1769-SDN scanner module lies in its redundancy options, providing a fail-safe mechanism that enhances overall system reliability. The availability of redundant IP addresses ensures that the system remains operational even in case of network failures, guaranteeing uninterrupted production cycles.
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