● Product Number :T8311
● Product type: Trusted TMR extender interface
● Voltage range :20 to 32V DC
● Heat dissipation :40W.
● Use with chassis :T8300
● Maximum load :40W
● Module clock :50 MHZ
● Extender bus data rate :250Mbps
● Manufacturer :ICS Triplex
●I/O interface: Expander chassis backplane
● Operating temperature :-5 ° C to 60 ° C (13 ° F to 140 ° F)
● Non-operating temperature: -25 ° C to 70 ° C (-25 ° F to 158 ° F)
● Working humidity :5 to 95% relative humidity
● Dimensions (L x W x H): 30.3cm x 3.1cm x 26.6cm
● Weight :1.14 kg
● Shipping weight :3 kg
ICS Triplex T8311 is a controller module with a variety of features, including:
Control functions: Digital and analog signals can be processed to control and monitor critical processes and equipment.
High Performance processor: Equipped with high performance processor and memory to handle complex control algorithms and fast data processing.
Communication interface: Supports a variety of communication interfaces and protocols, such as Modbus, Foundation Fieldbus, Profibus, etc., for data exchange and communication with other devices or control systems.
Automatic failover: The automatic failover function ensures that the system can be quickly switched over to the backup system when a fault occurs, ensuring system stability and reliability.
Safety and reliability: Designed with a high degree of safety and reliability to cope with the harsh requirements of industrial environments and ensure the safety and reliability of the system.
Regarding the pros and cons of ICS Triplex T8311, the advantages include:
Powerful control functions and high-performance processors enable it to process control tasks and data quickly and accurately.
Support a variety of communication interfaces and protocols, you can easily integrate and communicate with other devices or control systems.
With automatic failover function, the stability and reliability of the system are improved.
Designed for a high degree of safety and reliability, suitable for a variety of harsh industrial environments.
Disadvantages may include:
For some specific devices or application scenarios, customized configuration and control schemes may be required, which increases the complexity of design and production.
For some complex control and monitoring tasks, higher processing power and storage capacity may be required, increasing hardware cost and technical difficulty.