Description
Product Overview
The Bently Nevada 82367-01 Thermocouple Input Module belongs to the reliable 3300 series. Engineers use this compact device for precise temperature measurement, seamless integration, and dependable performance in demanding industrial environments.
Technical Specifications
| Parameter |
Value |
| Model Number |
82367-01 |
| Module Type |
Thermocouple Input Module |
| Manufacturer |
Bently Nevada |
| Product Range |
3300 series |
| Condition |
Brand New |
| Weight |
0.28kg |
| Dimension |
5 × 9.8 × 22.8cm |
| HS Code |
8537101190 |
| Minimum Order Quantity |
1 |
| Origin |
USA |
| System |
TSI |
| Communication |
Modbus RTU / Ethernet router |
| Channels Supported |
8 (J, K, E, T, N, R, S types) |
| Resolution |
12-bit analog input |
| Power Supply |
24V DC |
| Enclosure Protection |
IP65 |
| Operating Temperature |
-40°C to +125°C |
| Discontinued On |
Active |
Functional Highlights
The 82367-01 supports up to eight thermocouple channels, enabling accurate monitoring across a wide temperature range. Its 12-bit high-resolution analog input ensures precise data acquisition, critical for industrial applications requiring accuracy.
Engineers benefit from Modbus RTU communication, which allows seamless integration with automation systems. The compact 5 × 9.8 × 22.8cm design and lightweight 0.28kg build simplify installation, while the IP65-rated enclosure protects against dust and water.
The 82367-01 operates reliably under extreme conditions with a 24V DC power supply, ensuring stable performance even in fluctuating electrical environments. Its durable construction guarantees long-term reliability in harsh industrial settings.
Applications and Compatibility
The Bently Nevada 82367-01 integrates seamlessly with the 3300 series, making it suitable for retrofits and new installations. Industries such as manufacturing, energy, and process control rely on this module for precise temperature monitoring. Compatibility with Modbus RTU and Ethernet router communication ensures smooth integration with supervisory systems.
