FOXBORO IDP10-T22C21F-L1: A Differential Pressure Transmitter
Product Name: FOXBORO IDP10-T22C21F-L1
Product Description:
The FOXBORO IDP10-T22C21F-L1 is a differential pressure transmitter designed to accurately measure the difference in pressure between two points. It’s commonly used in industrial processes to measure flow rates, levels, and other variables that can be derived from pressure differentials.
Product Parameters:
- Type: Differential Pressure Transmitter
- Pressure Range: The specific pressure range will depend on the transmitter’s configuration, but it typically covers a wide range, such as 0-100 psi or 0-10 bar.
- Output Signal: The transmitter typically outputs a 4-20 mA analog signal, which can be easily integrated into control systems.
- Accuracy: High accuracy, often specified in terms of a percentage of full scale.
- Repeatability: The ability of the transmitter to consistently measure the same pressure value under identical conditions.
- Response Time: The speed at which the transmitter can respond to changes in pressure.
- Operating Temperature: The temperature range within which the transmitter can operate reliably.
- Housing: The transmitter is usually housed in a rugged enclosure suitable for industrial environments.
- Mounting: The transmitter can be mounted in various ways, such as panel mount or field mount.
Additional Features:
- HART Protocol: Many IDP10 transmitters support the HART protocol, allowing for digital communication and configuration.
- Diagnostics: Built-in diagnostics can help identify and troubleshoot potential issues.
- Certifications: The transmitter may have certifications for various safety standards and industry regulations.
Applications:
- Flow measurement
- Level measurement
- Pressure control
- Process monitoring
- Quality control
Note: The specific parameters and features of the FOXBORO IDP10-T22C21F-L1 may vary slightly depending on the exact configuration. It’s recommended to consult the official FOXBORO documentation or contact their customer support for the most accurate information.
