A-B 1715-OB8DE Product Details, Specifications, Parameters, and Application Fields
Product Details:
The A-B 1715-OB8DE is a redundant I/O module specifically designed for industrial automation systems. This module belongs to the Allen-Bradley 1715 series and offers 8 points of digital output. It is known for its robust construction and reliable performance in various industrial environments.
Product Specifications:
Brand: Allen-Bradley (A-B)
Model: 1715-OB8DE
Type: Redundant I/O Module
Output Type: Digital
Number of Outputs: 8
Maximum Power Dissipation: 3 Watts
Operating Temperature Range: -25°C to 70°C
Dimensions: 166 x 42 x 118 mm
Weight: 290 grams
Mounting Type: DIN Rail Mounting
Enclosure Type: Open with display for module health and status indication
Output Signal: 18 to 32 VDC
Shock Resistance: Varies depending on the condition (up to 50g unmounted, 30g when installed but not on DIN rail, 25g when mounted on DIN rail during operation, and 2g for抗震能力)
Product Parameters:
Reliability: The 1715-OB8DE is designed for continuous and reliable operation in demanding industrial environments.
Flexibility: It supports a wide range of wire types (18 to 16 AWG) and can be easily integrated into existing systems.
Efficiency: With its 8 points of digital output, it can control multiple devices or systems simultaneously.
Durability: The module is built to last, with a robust enclosure and shock resistance capabilities.
Application Fields:
The A-B 1715-OB8DE finds its primary applications in industrial automation and control systems. It is commonly used in manufacturing, where it controls various machines and processes. Additionally, it can be found in energy, transportation, and other industries where precise and reliable control of digital outputs is crucial. The module’s redundancy feature makes it suitable for critical applications where failure is not an option.
Note: When considering the A-B 1715-OB8DE for specific applications, it is recommended to consult with the manufacturer or a qualified engineer to ensure compatibility and optimal performance.
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