The Honeywell 10201/2/1 is a high-reliability Fail-Safe Control (FSC) Digital Output Module. This 0.15 kg component provides secure discrete signal management for critical safety instrumented systems in industrial DCS environments.
The Honeywell 10201/2/1 serves as a high-integrity Fail-Safe Control (FSC) digital output component. This module precisely manages discrete signals for critical safety instrumented functions. Because it operates within the FSC system, it provides vital protection for industrial assets. The hardware executes shutdown commands or valve actuations with absolute consistency. Furthermore, it maintains high system availability through advanced internal diagnostics. These features ensure the module identifies hardware discrepancies before they impact plant safety.
| Feature | Specification Detail |
| Brand | Honeywell |
| Model Number | 10201/2/1 |
| System Platform | FSC (Fail-Safe Control) |
| Device Category | Digital Output Module |
| Module Weight | 0.15 kg |
| Physical Dimensions | 2.0 cm x 19.0 cm x 12.9 cm |
| Manufacturing Origin | United States |
| HS Tariff Code | 8537101190 |
This module utilizes redundant internal logic to prevent accidental signal triggering. Moreover, the hardware design focuses on high-speed response during emergency scenarios. The 10201/2/1 integrates seamlessly with existing DCS and Ethernet-based communication routers. Because it supports real-time monitoring, operators receive immediate feedback on channel status. This visibility simplifies troubleshooting in complex energy or chemical processing facilities. Additionally, the compact 0.15 kg frame allows for efficient density within safety racks.
Industrial plants specify the 10201/2/1 for its rugged and fail-safe characteristics. It performs reliably in environments requiring temperature, pressure, and flow safety limits. Furthermore, the module facilitates easy integration into both legacy and modern safety architectures. Since it meets stringent industrial safety standards, it remains a preferred choice for high-risk applications. The module’s engineering minimizes latency between controller logic and field actuation. Consequently, this leads to superior protection during rapid process upsets.
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