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Configured for high-speed process execution in CENTUM CS 3000 systems, the YOKOGAWA AFS20D-H4221/3-NDF4/3-NDR4 (AFS20D-H4221 Field Control Unit) provides direct electrical execution of control algorithms and I/O management. The unit utilizes a duplexed architecture to maintain control continuity, requiring precise synchronization between the active and standby modules to ensure zero-latency failover across the network backbone.
| Parameter | Specification |
|---|---|
| Model | AFS20D-H4221/3-NDF4/3-NDR4 |
| Brand | YOKOGAWA |
| Origin | Japan |
| Weight | 3.5 kg |
| Dimensions | Standard CS 3000 control unit footprint |
| Operating Temp | -20 to 60 deg C |
| Power Consumption | Subject to system bus load |
| Processor | High-speed control core |
| Redundancy | Duplexed configuration |
| Communication | FIO / V-net |
The AFS20D-H4221/3-NDF4/3-NDR4 is designed for integration with standard 4-20 mA HART loop protocol environments. The unit architecture includes channel-to-channel isolation on the interface cards to maintain signal integrity within complex electromagnetic environments. By implementing strict electrical separation, the unit prevents ground loops and transient voltage surges from propagating across the control network. Data throughput is optimized through hardware-level handshake control, minimizing latency in the command-response cycles typical of DCS process loops.
Q: Does the AFS20D duplexed pair support hot-swapping during process execution?
A: Yes. In a redundant configuration, the standby module can be extracted and replaced while the primary module maintains active control, provided the system status indicates a successful handover state.
Q: How is the synchronization maintained between the duplexed units?
A: Synchronization is managed through a dedicated high-speed tracking bus integrated into the control backplane. This bus ensures that the standby module continuously mirrors the memory state and control output values of the active module.