Yokogawa SNB10D-243/C2UN Safety Node Unit
| Company Information | ||||||||
| [email protected] | ||||||||
| Mobile | +8615305023276 | |||||||
| +8615305023276 | ||||||||
| 15305023276 | ||||||||
| Add to | Room 1004, No. 62 Xiangxiu Li, Siming District, Xiamen City, Fujian Province, China | |||||||
Technical Specifications
| Parameter | Specification |
|---|---|
| Model | SNB10D-243/C2UN |
| Product Type | Safety Node Unit |
| Manufacturer | Yokogawa |
| System Platform | ProSafe-RS Safety Instrumented System |
| Main Function | Provides distributed safety I/O expansion, field signal acquisition, and communication between field devices and the safety control system |
| Application | Safety Instrumented Systems (SIS), Emergency Shutdown Systems (ESD), safety interlocking, critical equipment protection, and industrial process monitoring |
| Communication Interface | ESB Bus communication interface |
| Connector Unit | C2UN Connector Unit |
| Node Type | Distributed safety node unit |
| Installation Method | Standard 19-inch rack mounting |
| Power Supply Configuration | Dual redundant power supply configuration |
| Power Supply Structure | Dual power module architecture |
| Communication Method | High-speed real-time communication with the safety controller via ESB Bus |
| Supported Modules | Power supply modules, ESB Bus interface modules, optical ESB Bus communication modules, digital safety I/O modules, and analog safety I/O modules |
| Safety Level | Suitable for SIL 3 safety applications |
| System Expansion Capability | Supports distributed I/O expansion for large-scale safety systems |
| Diagnostic Functions | Module status monitoring, communication diagnostics, self-diagnostics, fault detection, and system health monitoring |
| System Architecture | Distributed redundant safety control architecture |
| Typical Applications | Oil & gas, petrochemical, chemical processing, power generation, metallurgy, pharmaceuticals, and other continuous process industries |
| Operating Environment | Designed for continuous operation inside industrial control cabinets |
| Environmental Compatibility | Industrial-grade design with excellent electromagnetic interference resistance |
| Reliability Features | High availability with redundant architecture and fault-tolerant operation |
| Structural Design | Modular construction for flexible installation, maintenance, and future system expansion |
| Dimensions | 482.6 × 221.5 × 205 mm |
| Weight | 5.9 kg |
FAQ
1. What is the primary function of the SNB10D-243/C2UN Safety Node Unit?
The SNB10D-243/C2UN Safety Node Unit is an essential distributed communication and I/O interface within the Yokogawa ProSafe-RS Safety Instrumented System (SIS). Its primary purpose is to collect safety-related field signals, expand distributed safety I/O capacity, and establish reliable communication between field devices and the central safety controller through the ESB Bus network.
The unit serves as the communication gateway for numerous safety instruments, including pressure transmitters, temperature sensors, gas detectors, emergency stop pushbuttons, safety switches, valve position indicators, and various final control elements. It continuously acquires operational data from the field and transfers it to the safety controller for real-time processing.
When abnormal process conditions are detected, the controller executes predefined safety logic and immediately initiates protective actions such as emergency shutdown, process isolation, alarm activation, or equipment trip. These rapid responses help protect personnel, production assets, and the surrounding environment from hazardous situations.
Its distributed architecture also reduces field wiring, improves installation flexibility, and simplifies future system expansion across large industrial facilities.
2. Which industrial applications are suitable for the SNB10D-243/C2UN?
The SNB10D-243/C2UN is specifically designed for industries where continuous operation, high system availability, and functional safety are essential. Typical applications include oil and gas production, refineries, petrochemical plants, chemical processing facilities, power generation stations, pharmaceutical manufacturing, LNG terminals, offshore platforms, and metallurgical plants.
Within oil and gas facilities, the Safety Node Unit supports emergency shutdown systems (ESD), fire and gas detection systems (F&G), compressor protection, wellhead control, pipeline monitoring, and critical process safety applications.
Chemical processing facilities utilize the unit for reactor protection, hazardous process monitoring, safety interlocking, emergency isolation systems, and production equipment protection. Its reliable communication capabilities ensure that critical process data is continuously available to the safety controller.
Power generation facilities commonly deploy the unit for boiler protection, turbine protection, auxiliary equipment monitoring, and plant-wide safety automation, where uninterrupted communication is required for safe plant operation.
The industrial-grade design allows the unit to operate reliably in demanding environments with high electromagnetic interference and continuous production schedules.
3. How does the SNB10D-243/C2UN communicate with the ProSafe-RS safety controller?
The SNB10D-243/C2UN communicates with the ProSafe-RS safety controller through the high-speed ESB Bus communication network, which forms the backbone of Yokogawa’s distributed safety architecture.
Safety I/O modules installed on the node continuously collect digital inputs, analog measurements, equipment status information, and diagnostic data from connected field devices. The Safety Node Unit consolidates this information and transmits it through the ESB Bus to the central safety controller.
The controller processes incoming signals according to the configured safety application program. Whenever unsafe operating conditions are identified, it immediately issues commands to shutdown valves, relays, alarms, motor starters, and other final control elements responsible for executing protective actions.
This communication architecture enables fast response times, reliable data transmission, simplified system expansion, and reduced field wiring while maintaining high levels of operational reliability across distributed industrial installations.
4. Why is redundant architecture important for the SNB10D-243/C2UN?
Redundant architecture is fundamental to Safety Instrumented Systems because safety protection must remain available even if individual hardware components experience failures.
The SNB10D-243/C2UN supports dual redundant power supplies, allowing uninterrupted operation if one power source fails. This significantly improves overall system availability while reducing the possibility of unexpected production shutdowns caused by electrical faults.
The unit also performs continuous internal diagnostics by monitoring communication integrity, module health, power supply status, and hardware operating conditions. Diagnostic information is automatically reported to the engineering workstation, allowing maintenance personnel to identify developing problems before they affect plant safety.
For continuously operating facilities such as refineries, petrochemical complexes, and power stations, redundant architecture minimizes maintenance risks, improves operational reliability, and supports uninterrupted safety protection throughout the production lifecycle.
5. What installation practices should be followed for the SNB10D-243/C2UN?
Successful installation begins by verifying compatibility between the Safety Node Unit, ProSafe-RS controller, power supply modules, communication modules, and all installed safety I/O modules.
The unit should be securely mounted inside a properly grounded industrial control cabinet with adequate ventilation and a stable power supply. Maintaining proper environmental conditions helps maximize equipment reliability and service life.
ESB Bus communication cables should be installed according to Yokogawa engineering guidelines. Communication wiring should be routed carefully to minimize electromagnetic interference while ensuring secure connector installation and proper network configuration.
Following hardware installation, engineers should perform complete commissioning procedures including node recognition, communication verification, power redundancy testing, I/O channel validation, diagnostic confirmation, and functional testing of all configured safety logic.
Careful installation and commissioning help ensure stable long-term operation while minimizing future maintenance requirements.
6. How can faults be diagnosed on the SNB10D-243/C2UN?
Troubleshooting should begin by reviewing diagnostic information available within the ProSafe-RS engineering environment.
Maintenance personnel should first verify redundant power supply operation, inspect hardware status indicators, and confirm that the ESB Bus communication network is functioning normally. Communication cables, interface modules, connectors, and node status should all be carefully examined.
Configuration settings, hardware allocation, communication parameters, and engineering database information should then be compared with the installed hardware to eliminate possible configuration errors.
If communication and hardware configuration are confirmed to be correct, technicians should continue investigating connected safety I/O modules and field instruments. Sensors, transmitters, switches, valves, and other external devices may generate alarms that appear as Safety Node Unit diagnostics.
The integrated diagnostic capabilities significantly reduce troubleshooting time by allowing maintenance personnel to quickly isolate faults and restore normal system operation with minimal production interruption.
7. What expansion capabilities does the SNB10D-243/C2UN provide?
The SNB10D-243/C2UN features a highly modular architecture designed to support flexible expansion as industrial facilities grow.
The unit supports redundant power modules, ESB Bus interface modules, optical communication modules, digital safety I/O modules, and analog safety I/O modules. These modules allow integration of pressure transmitters, temperature sensors, flowmeters, level instruments, gas detectors, emergency stop devices, valve position switches, and numerous other safety-related field devices.
As production capacity increases or additional monitoring points become necessary, engineers can simply install compatible modules or additional distributed safety nodes without redesigning the entire safety system.
This scalable architecture reduces engineering costs, shortens project implementation time, preserves existing investments, and provides excellent flexibility for future plant modernization projects.
8. How can long-term reliability of the SNB10D-243/C2UN be maintained?
Maintaining long-term reliability requires preventive maintenance, continuous diagnostics, and proper environmental management throughout the equipment lifecycle.
Maintenance personnel should periodically review diagnostic records, communication status, module health information, and historical alarm logs to identify developing issues before they result in unexpected failures.
Power supply modules, communication cables, terminal connections, interface modules, and installed hardware should be routinely inspected to ensure secure electrical connections and stable communication performance.
The industrial control cabinet should remain clean, dry, properly ventilated, and protected from excessive dust, vibration, humidity, temperature fluctuations, and electromagnetic interference that could affect sensitive electronic components.
Whenever hardware replacement, software updates, or system expansion is performed, only compatible ProSafe-RS components should be installed. Comprehensive functional testing, communication verification, and safety validation should always be completed before returning the system to normal operation.
With proper preventive maintenance, continuous monitoring, and adherence to recommended engineering practices, the SNB10D-243/C2UN can deliver dependable performance and reliable safety protection throughout its operational service life.
Yokogawa SNB10D-243/C2UN Safety Node Unit is in stock. Please contact us for a quick quote and competitive pricing.
| Company Information | ||||||||
| [email protected] | ||||||||
| Mobile | +8615305023276 | |||||||
| +8615305023276 | ||||||||
| 13950166376 | ||||||||
| Add to | Room 1004, No. 62 Xiangxiu Li, Siming District, Xiamen City, Fujian Province, China | |||||||
Company Introduction
Xiamen Shengruite Trading Co., Ltd. is a company specializing in the supply of industrial PLC spare parts.
We provide high-quality PLC spare parts to customers in the global manufacturing, energy and power, chemical and other fields.
Since its establishment in 2011, after 13 years of rapid development, the cumulative global shipments have reached 223,650 pieces, with an annual output value of US$50 million.
Successfully served more than 500 customers in more than 100 countries and regions including Saudi Arabia, UAE, the United States, Europe, Africa, and Southeast Asia
Our Mission
Provide customers with the best quality PLC spare parts and the fastest delivery service to ensure that their industrial automation systems are always in the best operating condition.
We provide a 1-year warranty service, and we support returns and exchanges for any issues to ensure your rights and interests are fully protected.
We can provide detailed product images upon request, and our team can arrange warehouse photos for confirmation to ensure you have all the information you need before making a purchase.
Shipping times vary depending on your location. With the support of our 16 global warehouses, we strive to deliver orders as quickly as possible. Contact us to get an estimated delivery time for your specific location.
The minimum order quantity (MOQ) is typically one unit. However, for larger orders, please contact us for potential discounts and pricing details.
Yes, we offer competitive pricing for bulk purchases. Please reach out to our sales team with the specifics of your order to receive a custom quote.
We accept various payment methods for wholesale orders, including bank transfers (T/T), letters of credit, and other options upon agreement. For large transactions, please contact us directly for payment terms.
Yes, we offer flexible ordering options for both small and large quantities. Whether youre looking for a single unit or a large batch, we can accommodate your needs.
We occasionally offer promotional discounts for new wholesale customers. Contact us to learn more about any current offers available for first-time buyers.
If you are unsure of compatibility with your existing setup please provide your system details and our support team can verify compatibility prior to purchase.
Returns are accepted within 30 days if the product is unused, unopened, and in its original packaging. Please note that return shipping and associated costs are the buyer\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\’s responsibility.
Yes, we offer technical support for the installation and integration of our products. Our team can assist with setup, configuration, and troubleshooting to ensure a smooth installation.








