DANFOSS
407AA02009A
$157.32 USD
- DANFOSS
- Material:407AA02009A
Due to extremely high demand, please call 888-905-7411 for availability
***Disclaimer: The following summary contains information gathered from various sources such as product descriptions, technical specifications and catalogs. While efforts have been made to provide accurate details, inaccuracies may occur. It is advised to verify all information by contacting Danfoss directly.***
The Danfoss 407AA02009A (407AA02009A) is a specialized screw-in cartridge valve designed for pilot-operated sequence operations. This component belongs to the 1PSC30 series, known for its robust design and reliable performance in hydraulic systems. Although certain specifications such as port size, special features, pressure setting, adjustment details, and body material are proprietary or unpublished, this valve is engineered to manage fluid flow effectively in demanding applications. Its pilot-operated sequence functionality allows for precise control over the sequence of operations within a hydraulic circuit, making it suitable for complex machinery that requires synchronized movement or pressure control. The Danfoss 407AA02009A is ideal for integration into systems where space is limited but high performance is required.
The Danfoss 407AA02009A (407AA02009A) is a specialized screw-in cartridge valve designed for pilot-operated sequence operations. This component belongs to the 1PSC30 series, known for its robust design and reliable performance in hydraulic systems. Although certain specifications such as port size, special features, pressure setting, adjustment details, and body material are proprietary or unpublished, this valve is engineered to manage fluid flow effectively in demanding applications. Its pilot-operated sequence functionality allows for precise control over the sequence of operations within a hydraulic circuit, making it suitable for complex machinery that requires synchronized movement or pressure control. The Danfoss 407AA02009A is ideal for integration into systems where space is limited but high performance is required.