Fisher DVC6200F Digital Valve Controller
The Fisher™ FIELDVUE™ DVC6200f Digital Valve Controller is designed for precise control and performance optimization. With its advanced features, it ensures accurate control, minimizes wear and tear, and operates effectively even in challenging environments. Here are some key details:
- Area Classification: Explosion Proof, Intrinsically Safe, FISCO, Type N, Flame Proof, Non-incendive for FM
- Certifications: CSA, FM, ATEX, IECEx, CUTR, Lloyd’s Register, Peso, KGS, INMETRO, NEPSI, TIIS, Natural Gas Certified, Single Seal Device
- Communication Protocol: FOUNDATION Fieldbus
- Diagnostics: Yes
- Input Signal: Electric
- Max Outlet Pressure: 145 psig
- Mounting Type: Integral Mounted
- Operating Temperature: Standard Temperature, High Temperature
- Position Control: Throttling Control, On/Off
- Power Source: Local
- Process Control: Flow, Pressure, Temperature, Level
- Supply Media: Air, Natural Gas, Nitrogen
- Utilizes a high-performance, linkage-less feedback system to eliminate physical contact, ensuring long-term durability.
- Fully encapsulated electronics withstand vibration, temperature variations, and corrosive environments.
- Offers quick response to significant changes and precise control for minor setpoint adjustments.
- Supports FOUNDATION™ fieldbus communication for easy access to device information along the segment, reducing exposure to hazardous environments.
- Allows customization through the creation or deletion of function blocks for specific applications.
- When integrated into a control system, it leads to significant cost savings in hardware and installation.
- Equipped with self-diagnostic capabilities for continuous valve performance and health evaluation.
- Provides easy access to valve condition data, aiding in maintenance decisions.
- Conducts Partial Stroke Tests to detect valve failures without interrupting the process.
The Fisher™ FIELDVUE™ DVC6200f is an ideal choice for industries requiring precise control and reliability in demanding operating conditions.