Description
Technical Parameters
Product Introduction
TRICONEX MP3101 S2 is an important controller module used in Triconex control systems. It can be used in a variety of industrial automation control scenarios, especially in areas such as safety instrument systems that have extremely high requirements for reliability and stability.
Technical Specifications
|
Brand |
TRICONEX |
|
Model |
MP3101S2 |
|
Part Number |
MP3101S2 |
|
Description |
TMR Tricon Module
|
|
Origin |
USA |
|
Dimension |
30*20*6cm |
|
Weight |
1.58kg |
Product Details
TRICONEX MP3101S2 performance features:
Redundant design: It adopts advanced redundant processor technology, high-reliability hardware design and redundant software algorithm, usually triple redundant (TMR) architecture, with high redundancy, which can greatly improve the reliability and stability of the system, and can continue to operate stably and safely when some modules fail, ensuring the high availability of the system in harsh industrial environments or complex working conditions.
Processing capacity: It has efficient processing capabilities, can quickly respond to and process various complex operations and large amounts of input and output data, supports high-speed, real-time data processing and complex control algorithms, can perform fast fault switching and data processing, and provide accurate and timely decision-making basis for the control system.
Safety standard: It complies with SIL3 safety standards and is suitable for critical application scenarios with extremely high safety requirements.
Communication capability: It supports multiple communication protocols, such as Modbus, Ethernet, etc., and is equipped with rich interfaces and accessories. It can be seamlessly integrated with other control systems or devices, and is convenient for connecting various field devices, host computers and other intelligent devices to achieve efficient data interaction.
Redundant design: It adopts advanced redundant processor technology, high-reliability hardware design and redundant software algorithm, usually triple redundant (TMR) architecture, with high redundancy, which can greatly improve the reliability and stability of the system, and can continue to operate stably and safely when some modules fail, ensuring the high availability of the system in harsh industrial environments or complex working conditions.
Processing capacity: It has efficient processing capabilities, can quickly respond to and process various complex operations and large amounts of input and output data, supports high-speed, real-time data processing and complex control algorithms, can perform fast fault switching and data processing, and provide accurate and timely decision-making basis for the control system.
Safety standard: It complies with SIL3 safety standards and is suitable for critical application scenarios with extremely high safety requirements.
Communication capability: It supports multiple communication protocols, such as Modbus, Ethernet, etc., and is equipped with rich interfaces and accessories. It can be seamlessly integrated with other control systems or devices, and is convenient for connecting various field devices, host computers and other intelligent devices to achieve efficient data interaction.
Electrical parameters:
Input voltage: High level voltage - current input 15…30VDC (2mA at ≥15V); Low level max. 5VDC, max. current 1.5mA (1mA at 5V), typical switching point 7.5V.
Switching time: 250µs.
Power supply: 4xLS -4V/40mA, short-circuit proof, buffered 20ms; 2xLS -2V/1A, short-circuit proof, unbuffered.
Current input: max. 1A at 60°C.
Number of outputs: 8 (not galvanically isolated).
Output type: two-pole switch DO 2A (typical inrush current 10A at 2ms).
Output voltage: ≥L negative voltage drop (L and L - branches).
Output current: max. 2A at 40°C, max. 1A at 60°C, min. 10mA.
Input voltage: High level voltage - current input 15…30VDC (2mA at ≥15V); Low level max. 5VDC, max. current 1.5mA (1mA at 5V), typical switching point 7.5V.
Switching time: 250µs.
Power supply: 4xLS -4V/40mA, short-circuit proof, buffered 20ms; 2xLS -2V/1A, short-circuit proof, unbuffered.
Current input: max. 1A at 60°C.
Number of outputs: 8 (not galvanically isolated).
Output type: two-pole switch DO 2A (typical inrush current 10A at 2ms).
Output voltage: ≥L negative voltage drop (L and L - branches).
Output current: max. 2A at 40°C, max. 1A at 60°C, min. 10mA.
TRICONEX MP3101S2 case study in industrial automation control scenarios
1.Petrochemical industry:
Control of catalytic cracking units in large refineries: In catalytic cracking units in large refineries, TRICONEX MP3101S2 is used to precisely control key parameters such as reaction temperature, pressure, and feed flow. Through its powerful computing power and fast data processing speed, it adjusts parameters such as catalyst injection amount and reaction time in real time to ensure that the catalytic cracking reaction is carried out under the best working conditions, improve the yield of light oil, and ensure the safe and stable operation of the unit to avoid safety accidents and product quality problems caused by parameter fluctuations.
Safety interlock control of ethylene production units: In the ethylene production process, high temperature, high pressure, flammable and explosive environments are involved. As the core controller of the safety instrument system, TRICONEX MP3101S2 realizes safety interlock control of key equipment such as cracking furnaces, compressors, and separation towers. When it is detected that parameters such as temperature, pressure, and liquid level exceed the safety threshold, it can quickly trigger emergency shutdown or safety protection measures to prevent major accidents such as fire and explosion, and ensure the safety of personnel and equipment.
Control of catalytic cracking units in large refineries: In catalytic cracking units in large refineries, TRICONEX MP3101S2 is used to precisely control key parameters such as reaction temperature, pressure, and feed flow. Through its powerful computing power and fast data processing speed, it adjusts parameters such as catalyst injection amount and reaction time in real time to ensure that the catalytic cracking reaction is carried out under the best working conditions, improve the yield of light oil, and ensure the safe and stable operation of the unit to avoid safety accidents and product quality problems caused by parameter fluctuations.
Safety interlock control of ethylene production units: In the ethylene production process, high temperature, high pressure, flammable and explosive environments are involved. As the core controller of the safety instrument system, TRICONEX MP3101S2 realizes safety interlock control of key equipment such as cracking furnaces, compressors, and separation towers. When it is detected that parameters such as temperature, pressure, and liquid level exceed the safety threshold, it can quickly trigger emergency shutdown or safety protection measures to prevent major accidents such as fire and explosion, and ensure the safety of personnel and equipment.
2. Power industry:
Wind turbine group monitoring system in wind farms: In large wind farms, TRICONEX MP3101S2 can be used for monitoring and controlling wind turbine groups. It collects the wind speed, wind direction, power, temperature and other operating data of each wind turbine, and through analysis and calculation, it realizes remote start and stop control, power regulation and fault diagnosis of wind turbines. It can automatically adjust the pitch angle and speed of the wind turbine according to the change of wind speed, so that the wind turbine always maintains the best power generation state, improving the overall power generation efficiency and stability of the wind farm.
3. Metallurgical industry:
Continuous casting production line control in steel plants: In the continuous casting production process of steel plants, TRICONEX MP3101S2 is responsible for controlling key parameters such as mold level, straightening speed, and cooling water volume. Through close cooperation with sensors and actuators, the vibration frequency and amplitude of the crystallizer are adjusted in real time to ensure the stability of the solidification process of molten steel in the crystallizer and improve the quality and surface finish of the ingot. At the same time, according to the production plan and molten steel supply, the speed of the straightening machine is automatically controlled to achieve automation and efficiency of continuous casting production.
Channel control system in aluminum electrolysis workshop: In aluminum electrolysis production, TRICONEX MP3101S2 is used in the tank control system to monitor and control the voltage, current, temperature, liquid level and other parameters of the electrolytic cell in real time. By optimizing the control algorithm, the anode lifting and unloading operations are automatically adjusted to maintain the stable operation of the electrolytic cell, reduce power consumption, improve the output and quality of aluminum, and reduce the errors and safety risks caused by manual operation.
Continuous casting production line control in steel plants: In the continuous casting production process of steel plants, TRICONEX MP3101S2 is responsible for controlling key parameters such as mold level, straightening speed, and cooling water volume. Through close cooperation with sensors and actuators, the vibration frequency and amplitude of the crystallizer are adjusted in real time to ensure the stability of the solidification process of molten steel in the crystallizer and improve the quality and surface finish of the ingot. At the same time, according to the production plan and molten steel supply, the speed of the straightening machine is automatically controlled to achieve automation and efficiency of continuous casting production.
Channel control system in aluminum electrolysis workshop: In aluminum electrolysis production, TRICONEX MP3101S2 is used in the tank control system to monitor and control the voltage, current, temperature, liquid level and other parameters of the electrolytic cell in real time. By optimizing the control algorithm, the anode lifting and unloading operations are automatically adjusted to maintain the stable operation of the electrolytic cell, reduce power consumption, improve the output and quality of aluminum, and reduce the errors and safety risks caused by manual operation.
If you have any order needs, please feel free to contact our sales manager:
Company: Joyoung International Trading Co., Limited
Atten: Smiling
Mobile/WhatsApp/Wechat: +86 18050035902
E-mail: info@htechplc.com
Website: https://www.joyoungintl.com/