GE IS220PTCCH1B Key features
12 thermocouple inputs for precise temperature measurement.
Supports standard thermocouple types including J, K, E, T, R, S, and B。
High accuracy range of ±0.1% FSR ensures reliable performance。
Wide operating temperature range from -40°C to +70°C。
Efficient power consumption with a maximum draw of 100 mA at 24 VDC
INSTALLATION:
Ensure the terminal board is securely installed.
Insert the IS220PTCCH1B module into the terminal board connector.
Secure the module mechanically using the threaded ferrule next to the Ethernet port.
Connect one or two Ethernet cables depending on the system configuration.
Connect the module to power through the connectors on the side of the module
Performance comparison
Parameter | Specification |
Series | Mark VIe |
Channels | 12 thermocouple inputs |
Measurement Range | -200°C to +1800°C |
Accuracy | ±0.1% FSR |
Communication | RS-485 with MODBUS RTU |
Enclosure Rating | IP20 |
Operating Temperature | -40°C to +70°C |
Storage Temperature | -40°C to +85°C |
Power Consumption | Max 100 mA at 24 VDC |
Dimensions (L x W x H) | 144mm x 92mm x 51mm |
Summary:
GE IS220PTCCH1B offers high-precision temperature measurement with 12 thermocouple inputs, making it suitable for applications requiring accurate temperature control
Typical cooperation cases
Spain - Industrial Plant Upgrade
In a Spanish industrial plant, the GE IS220PTCCH1B manages 12 thermocouple inputs, enhancing control system reliability and reducing maintenance needs by 20%.
France - Power Plant Modernization
In a French power plant, the IS220PTCCH1B integrates with existing systems, providing robust temperature measurement and increasing operational efficiency by 15%.
Germany - Manufacturing Facility Expansion
Deployed in a German manufacturing facility, the GE IS220PTCCH1B supports real-time temperature monitoring and control of production lines, optimizing efficiency and reducing downtime by 25%.
Italy - Industrial Plant Optimization
In an Italian industrial plant, the IS220PTCCH1B ensures safe and efficient operations by managing critical temperature signals and reducing equipment failure rates by 30%.
