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| Quantity: | |
|---|---|
| Technical performance | |
| Reference accuracy: 0.2%FS, 0.5%FS | Stability: Better than 0.25% FS per year |
| Installation position impact: No impact Less than O. 15%/10℃ | Temperature influence (-15~50℃) Working voltage: 15V~30V DC |
| Allowable temperature | |
| Ambient temperature: -10 ° C to 70 ° C Storage temperature: -40℃~110℃ | Medium temperature: -40℃~120℃ Compensation temperature:15 ℃ to 50 ℃ |
| Structure and material | |
| Liquid diaphragm 316L stainless steel, Ha alloy | Process connector stainless steel |
| Fluorine rubber seals | Shell surface spray aluminum alloy, stainless steel |
| Protection level IP65 | |
The Advantages of Differential Pressure Transmitters
Differential pressure transmitters have become an essential component in various industrial applications, mainly due to their unique advantages over other pressure measurement devices. These transmitters offer a range of benefits that make them a preferred choice for a wide range of processes and environments.
Accuracy and Precision
One of the primary advantages of differential pressure transmitters is their high level of accuracy and precision. These devices measure the difference in pressure between two separate points within a system, which can provide a very precise measurement of the process variable. This accuracy is crucial in many industrial applications, where small variations in pressure can significantly impact the overall system performance.
Versatility and Flexibility
Differential pressure transmitters are designed to be versatile and can be used in various types of systems and processes. Whether it's for measuring flow rate, level, or pressure, these transmitters can be easily configured and calibrated to meet specific application requirements. This flexibility makes them suitable for use in a wide range of industries, including petroleum, chemical, and power generation.
Easy Installation and Integration
Differential pressure transmitters are typically easy to install and integrate into existing systems. They require minimal additional components and can be connected to the process using standard fittings. This simplicity in installation and integration can help reduce downtime and save on installation costs, making them an attractive option for many industrial applications.
Reliability and Stability
Differential pressure transmitters are known for their reliability and stability, making them suitable for use in harsh and demanding industrial environments. These transmitters are typically built with rugged construction and are designed to withstand extreme temperatures, vibrations, and other environmental factors that can affect the accuracy and longevity of other pressure measurement devices.
Cost-Effective Solution
Compared to other pressure measurement devices, differential pressure transmitters often offer a more cost-effective solution for industrial applications. While the initial cost of these transmitters may be higher, their accuracy, reliability, and longevity can help reduce overall operating costs by reducing maintenance requirements and minimizing downtime. Additionally, these transmitters are typically easy to repair and replace, further reducing long-term costs.
In conclusion, differential pressure transmitters offer a range of advantages that make them an excellent choice for a variety of industrial applications. Their accuracy, precision, versatility, flexibility, reliability, stability, and cost-effectiveness make them a preferred choice for measuring pressure in demanding industrial environments. As technology continues to advance, differential pressure transmitters will likely become even more accurate, reliable, and cost-effective, further solidifying their position as the go-to device for pressure measurement in industrial applications.
| Technical performance | |
| Reference accuracy: 0.2%FS, 0.5%FS | Stability: Better than 0.25% FS per year |
| Installation position impact: No impact Less than O. 15%/10℃ | Temperature influence (-15~50℃) Working voltage: 15V~30V DC |
| Allowable temperature | |
| Ambient temperature: -10 ° C to 70 ° C Storage temperature: -40℃~110℃ | Medium temperature: -40℃~120℃ Compensation temperature:15 ℃ to 50 ℃ |
| Structure and material | |
| Liquid diaphragm 316L stainless steel, Ha alloy | Process connector stainless steel |
| Fluorine rubber seals | Shell surface spray aluminum alloy, stainless steel |
| Protection level IP65 | |
The Advantages of Differential Pressure Transmitters
Differential pressure transmitters have become an essential component in various industrial applications, mainly due to their unique advantages over other pressure measurement devices. These transmitters offer a range of benefits that make them a preferred choice for a wide range of processes and environments.
Accuracy and Precision
One of the primary advantages of differential pressure transmitters is their high level of accuracy and precision. These devices measure the difference in pressure between two separate points within a system, which can provide a very precise measurement of the process variable. This accuracy is crucial in many industrial applications, where small variations in pressure can significantly impact the overall system performance.
Versatility and Flexibility
Differential pressure transmitters are designed to be versatile and can be used in various types of systems and processes. Whether it's for measuring flow rate, level, or pressure, these transmitters can be easily configured and calibrated to meet specific application requirements. This flexibility makes them suitable for use in a wide range of industries, including petroleum, chemical, and power generation.
Easy Installation and Integration
Differential pressure transmitters are typically easy to install and integrate into existing systems. They require minimal additional components and can be connected to the process using standard fittings. This simplicity in installation and integration can help reduce downtime and save on installation costs, making them an attractive option for many industrial applications.
Reliability and Stability
Differential pressure transmitters are known for their reliability and stability, making them suitable for use in harsh and demanding industrial environments. These transmitters are typically built with rugged construction and are designed to withstand extreme temperatures, vibrations, and other environmental factors that can affect the accuracy and longevity of other pressure measurement devices.
Cost-Effective Solution
Compared to other pressure measurement devices, differential pressure transmitters often offer a more cost-effective solution for industrial applications. While the initial cost of these transmitters may be higher, their accuracy, reliability, and longevity can help reduce overall operating costs by reducing maintenance requirements and minimizing downtime. Additionally, these transmitters are typically easy to repair and replace, further reducing long-term costs.
In conclusion, differential pressure transmitters offer a range of advantages that make them an excellent choice for a variety of industrial applications. Their accuracy, precision, versatility, flexibility, reliability, stability, and cost-effectiveness make them a preferred choice for measuring pressure in demanding industrial environments. As technology continues to advance, differential pressure transmitters will likely become even more accurate, reliable, and cost-effective, further solidifying their position as the go-to device for pressure measurement in industrial applications.
