When first selecting a pressure transducer for a new project or piece of equipment, designers typically focus on key design parameters such as pressure range, electrical output, media compatibility and environmental conditions. However, those parameters are not the only ones to consider when making a smart choice for an application. There are three design considerations that are often overlooked when selecting a pressure transducer: transfer medium (oil filled vs. non-oil filled), construction, and type of sensing technology.
1) Transfer Medium (Oil Filled vs. Non-Oil Filled)
In the pressure sensing industry, there are many different sensor technologies, but all sensors can be broken down into two classifications: oil filled, non-oil filled. An oil filled sensor refers to a sensor that uses oil as a transfer medium between a diaphragm and the sensing element, typically a MEMS based electronic sensor.
Oil filled sensors appeal to many manufacturing applications due to itsmaterial compatibility,low cost, and ease of implementation into a completed sensor design. Although these sensors are becoming more common, there are several drawbacks to selecting an oil-filled sensor over a non-oil filled sensor.
The biggest drawback of an oil filled design is the high cost of failure. If the sensing diaphragm ruptures due to overpressure or manufacturing defect, oil can leak into the application and contaminate the system. If the oil gets into the system, it can damage the critical components costing thousands, if not millions of dollars depending on the application (i.e.fuel cells). Unfortunately, there is no fix for many systems once they are contaminated by oil. Non-oil filled designs eliminate the possibility of contamination due to failure and can withstand higher overpressure spikes.
2) Robust Construction
When selecting apressure transducer, the length of time a transducer will last in the application is a critical concern. Selecting a transducer with an all-welded construction enables a robust design that will provide a long lifespan in difficult applications. Also, consider the robustness of the connectors welded on the housing. In the field these units are often exposed to less than ideal circumstances that can compromise the operation of the transducer.
确保制造商提供广泛的压力配件选择,包括标准如1/4”和1/8”NPT,以及在需要时提供定制工艺配件的能力。有些传感器需要防潮,以防止连接器中引脚周围的腐蚀,而更可靠的传感器设计可能会受到潮湿环境的影响。
If protecting the transducer from a harsh environment is a concern, find one with an ingress protection (IP) rating that satisfies the needs of the installation. Transducers are available in a wide variety of ratings. A transducer with a rating of IP65 provides complete protection from infiltration of dust and the projection of water from a nozzle.
SETRA BLOG:What is the difference between NEMA and IP ratings?
具有IP67等级的换能器可以防止灰尘和暂时浸水的影响。IP69K等级适用于高压、高温应用。如果液体进入有风险,密封电缆是必须的。如果可能的话,避免油填充传感器,因为它会增加一个额外的材料,具有不同的热系数,可能会增加传感器的不稳定性。
CLICK HEREto learn how to interpret an IP rating Chart.
3) Robust Sensing Technology
A robust circuit design can mean different things to different people, but in general the most important factors are reliability, stability and protection from extreme environmental conditions. Today, sputtered thin film and variable capacitive technologies are considered state of the art forindustrial applications.
薄膜传感器采用了公认的惠斯通电桥原理。In this design, molecular layers are sputtered onto a17-4 or 316L stainless steel diaphragm, and the circuit is etched to provide excellent resistor definition and uniformity. Sputtered thin film technology allows the design of simple, highly accurate and compact strain gauges to be deposited onto the back of the sensing diaphragm.
Setra’scapacitive pressure transducersare expertly designed adaptations of a simple, durableand fundamentallystable device: the electrical capacitor. In a typical Setra configuration, a compact housing contains two closely spaced, parallel, electrically isolated metallic surfaces, one of which is essentially a diaphragm capable of slight flexing under pressure.
These firmly secured surfaces (or plates) are mounted so that a slight mechanical flexing of the assembly, caused by a minute change in applied pressure, alters the gap between them (creating, in effect, a variable capacitor). The resulting change in capacitance is detected by a sensitive linear comparator circuit (employing proprietary custom designed ASICs), which amplifies and outputs a proportional, high level signal.
SETRA BLOG:What is capacitance?
Both measuring principles virtually eliminate drift, while offering enhanced sensitivity. These technologies incorporate a compact design with good temperature stability. Both thin film and capacitive based sensors provide an analog output that is both linear and proportional to a pressure input with high accuracy and performance.
One last piece of advice: select a supplier that offers more than one technology. Each application has different design considerations which may dictate the used of one technology over another. For example, for lower pressure ranges and high overpressure applications, capacitance is the idea choice. However, for higher pressure and higher vibration applications, a design engineer may lean towards a thin film style sensor.
需要帮助您为您的项目选择正确的传感器?
