3503E TRICONEX
The 3503E TRICONEX is a thyristor module designed to control and regulate current and voltage in power systems.
Product Description:
The 3503E TRICONEX module achieves precise control of power equipment by receiving external signals and controlling the on-off and cutoff of the thyristor according to changes in the input signal.Its working principle is based on analog input channels,which can receive electrical signals from sensors or other analog sources and support specific analog input signal ranges,such as 4-20mA current signals or 0-10V voltage signals.The module has high resolution to accurately measure changes in the analog input signal.
Product parameters:
Input voltage:24VDC.
Input current:1.5A.
Output voltage:24VDC.
Output current:2A.
Operating temperature range:-40℃~70℃.
Dimensions:120mm x 80mm x 35mm.
Product Application:
Due to its precise control function,the 3503E TRICONEX module is widely used in industrial processes for the monitoring and control of process variables such as temperature,pressure and flow rate.In safety systems,it can be used to monitor critical equipment and process variables to ensure that the system is operating within a safe range.In addition,in the power industry,it can be used to monitor and control generators and other critical equipment.In the oil and gas industry,it can be used to monitor pipeline flow,pressure and other parameters.In the chemical industry,it can be used to monitor chemical concentration,temperature and other parameters.
Brand Introduction:
Triconex,a Schneider Electric brand,provides products,systems and services for safety,critical control and turbomachinery applications.Triconex provides TMR products for more than 11,500 installations based on Triple Modular Redundancy(TMR)industrial safety shutdown technology,making it the largest TMR supplier.Triconex’s history dates back to September 1983,when it was founded by Jon Wimer in Santa Ana,California,and began operations in March 1984.The business plan was written by Wimer and Peter Pitsker,an automation industry veteran and Stanford graduate.They presented plans for a system based on TMR(Triple Modular Redundancy)that will improve the safety and reliability of industrial applications.