Yokogawa AFV30D-S41152 Duplexed Field Control Unit Configured for real-time process communication and field I/O connectivity in CENTUM VP platforms, the...
Baca selengkapnya
Dukungan Pengembalian Dana, Layanan 7X24jam, Hubungi kami .
Hubungi kami: +86 135 995 07613
Tersedia pada hari kerja antara pukul 09.00 hingga 18.00
Email kami: sales2@industriaxplc.com
Tersedia 24/7 untuk pertanyaan dan dukungan
Keterangan
Yokogawa AFV30D-S41152 Duplexed Field Control Unit
Configured for real-time process communication and field I/O connectivity in CENTUM VP platforms, the Yokogawa AFV30D-S41152 (AFV30D Duplexed Field Control Unit) provides direct physical/electrical execution.
Suffix Breakdown & Model Matrix
Suffix Code
Specification
AFV30D
Duplexed Field Control Unit (for Vnet/IP and FIO, 19-inch Rack Mountable Type)
-S
Standard type
4
Dual-redundant Vnet/IP network, dual-redundant power supply
1
100-120 V AC power supply
1
Basic type (with hardware specifications)
5
Basic type with no explosion protection
2
Basic type (with no specialized option code additions)
Battery backup, max. 72 hours (Recharge time: min. 48 hours)
Control Network
Vnet/IP Interface (Dual-redundant), 1 Gbps Full Duplex
Network Cable Type
CAT5e or better, UTP (RJ45 connector)
Max Network Distance
100 meters (From FCU to Layer 2 network switch)
Connectable Nodes
Max. 13 to 14 nodes (Includes ESB Bus and ER Bus Node Units)
Local I/O Slots
Supports up to 8 FIO modules directly on the rack
Power Supply Voltage
100-120 V AC (50/60 Hz)
Power Consumption
Approx. 200 VA
Status Contact Output
2 terminals (NC, C), points open during FCU failure
Contact Rating
30 V DC, max. 0.3 A
Mounting Type
19-inch Rack Mounting
Weight
Approx. 8.0 kg (Fully equipped in duplexed configuration)
Dimensions
Standard 19-inch rack execution depth
Operating Temp
-10 to +55 degC
Storage Temp
-40 to +85 degC
Ambient Humidity
10% to 90% RH (Non-condensing)
Process Control and DCS Instrumentation Features
The architecture incorporates dedicated 4-20 mA HART loop protocol pass-through communication, enabling bidirectional variable transformation between field transmitters and the main processing units. Digital fieldbus options facilitate integrated FOUNDATION Fieldbus/Profibus PA connectivity directly through connected node units. To safeguard systemic calculations, channel-to-channel isolation is enforced across the structural FIO subsystem backplane, preventing transient ground loop currents from destabilizing analog signals. For thermocouple monitoring cards deployed within the connected nodes, cold junction compensation (CJC) registers maintain precision thermal references directly at the terminal connection point.
Frequently Asked Questions
Q: What is the maximum switchover disruption duration during a processor fault condition?
A: The control transfers from the active processor module to the standby processor module within milliseconds, ensuring zero interruption to the ongoing control loop execution.
Q: Can processor modules and power supply units be serviced while the unit is energized?
A: Yes, the dual-redundant hardware layout supports online "hot-swap" maintenance, allowing the replacement of a faulty module while the system remains powered and executing active plant processes.
Q: What happens to the status contact output terminals if the hardware experiences a critical failure?
A: The contact action is normally closed (NC). Upon detecting an internal FCU failure or complete power loss, the internal relay de-energizes, causing the points to open automatically.
Field Installation Guidelines
Rack Mounting Mechanical Constraints: Secure the chassis into a standard 19-inch rack structure using 8 x M5 screws. Insulation bushes must be utilized at each mounting point to electrically isolate the chassis frame from the rack structural ironwork.
Grounding Infrastructure: Connect a dedicated low-impedance copper ground wire from the functional grounding terminal of the chassis to the system instrument ground bus. Ensure the termination point resistance satisfies local industrial control room single-point grounding rules.
Network Cable Run Limits: Route the CAT5e or higher Vnet/IP UTP cables away from high-voltage AC lines or heavy inductive machinery motor leads. The total physical cable length from the RJ45 interface on the FCU module to the designated Layer 2 network switch must not exceed 100 meters.
