Description | Details |
---|---|
Available Quantity | 1 |
Model | 1756-L7SP |
Condition | New |
Manufacturer | Allen-Bradley |
Asset Number | KSC1290 / 627 |
Guarantee or ASIS | 1. HIGH CONFIDENCE ITEM: We will offer a 100% 14 Day money back less S&H. |
Inspections - Yellow Tag | 1. New in Box |
Packaging Cost | 1.6 6x10 CH $3.00 |
Asset #
KSC1290 / 627
Available Quantity
1
Inspections - Yellow Tag
1. New in Box
Condition
New
Guarantee or ASIS
1. HIGH CONFIDENCE ITEM: We will offer a 100% 14 Day money back less S&H.
The Allen-Bradley 1756-L7SP GuardLogix Safety Partner Processor is a key component in the family of Rockwell Automation's control solutions. Originally introduced to enhance the safety and performance of automated machinery, the 1756-L7SP is designed to meet stringent safety requirements in industries such as manufacturing, automotive, food and beverage, and more. This processor supports both standard control and safety functions, allowing for a seamless integration into existing systems while providing robust safety features. The unique aspect of the 1756-L7SP is its ability to execute safety-related tasks with redundancy and reliability, which is crucial in environments where system failures can lead to hazards. Additionally, it is part of the ControlLogix family, known for its high-speed processing and extensive connectivity options, thus elevating the overall operational efficiency of automated processes. The product is made to comply with various international safety standards, making it ideal for global applications. Ultimately, the 1756-L7SP GuardLogix Processor offers a comprehensive solution for industries seeking to enhance their safety systems while maintaining the highest levels of operational performance.
Processor type: GuardLogix Safety Partner Processor Supported platform: ControlLogix Max I/O points: 256 Communication: Ethernet/IP Programming language: Ladder Logic, Function Block Diagram Safety certification: SIL 3, PL e
Packaging Cost
1.6 6x10 CH $3.00
Appraised Value
$383.95
Payment Methods