GE IS200STTCH2A
| Brand | GE |
| Module Number | IS200STTCH2A |
| Unit Price | $4500 |
| Country Of Origin | USA |
| Weight | 5.1KG |
| Certificate |
C/O from the Chamber of Commerce C/Q from the Manufacturer |
| Warranty | 12 Months |
| Inventory Qty | 1 |
The IS200STTCH2A is a rail-mounted thermocouple terminal board produced by General Electric (GE) of the United States. It is compatible with the Speedtronic Mark V, Mark VI and Mark VIe series gas turbine control systems and is mainly used for temperature signal acquisition and transmission in industrial scenarios
| Parameter Category | Specification Detail |
| Product Name | IS200STTCH2A |
| System Compatibility | Speedtronic Mark V, Mark VI, Mark VIe |
| Input voltage | 115V AC/230V AC |
| Output voltage | 125V DC |
| Output current | 9.5A |
Account Number 88800006406771
Account name Vogi International Trading Co., Limited
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SWITF/BIC Code WIHBHKHHXXX
Bank name OCBC Hong Kong Branch
Bank address 161 Queen's Road Central, Central, Hong Kong
Country/Region Hong Kong (China)
Account type Business Account
Bank code 035
Payment method For the payment of goods, please make a FPS/CHATS/SWIFT Payment
Notes Please include the following memo/message to receiver when making a payment: [Buyer Name] [Invoice/Contract Number] [Product]
Details:
The signal access serves as the intermediate interface between the thermocouple and the gas turbine control system. This terminal board is connected to the on-site thermocouple sensor through a 48-position terminal block. Thermocouples generate corresponding millivolt-level thermoelectric potential signals based on the temperature changes of the measured area. These original temperature signals are transmitted to the board card through the terminal block.
The circuit composed of resistors, capacitors and ferrite beads at the center of the signal preprocessing board plays a key role. Among them, ferrite beads can filter out high-frequency electromagnetic interference signals in industrial environments, while resistors and capacitors stabilize and initially adjust the weak signals transmitted by thermocouples, avoiding signal distortion and laying the foundation for subsequent conversion.
The read-only integrated circuit on the signal conversion and transmission board will convert the preprocessed thermoelectric potential analog signal into a recognizable digital signal. Subsequently, these digitalized temperature data are transmitted to the Mark series main control system through the 37-pin female DC connector on the board.
After receiving the data, the main control system of system linkage and feedback monitors the temperature status of equipment such as gas turbines in real time. If the temperature exceeds the set range, the system will trigger corresponding control instructions based on this data to ensure the stable operation of industrial equipment under temperature-sensitive conditions and achieve temperature control management of the equipment.
