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When we talk about proportional valves, whether they are pneumatic or hydraulic, we typically refer to valves that vary their flow path when you apply an increasing or decreasing amount of power/current to the proportional valve鈥檚 coil. This input to the coil will generate an ever-increasing (or decreasing) magnetic field capable of moving the proportional valve鈥檚 internal poppet or spool-designed mechanism. For example, using a low wattage pneumatic proportional valve, 0-185 mA (nominal 0-10 VDC) can be used to generate 0-65 l/min @ 100 psig working pressure. Another means of proportional control would be using a stepper motor to position a needle or plate.

So, typical proportional valve performance provides smooth, repeatable control of all types of inert gases and media鈥攐r at least that鈥檚 true if we do not use the word 鈥渋solation鈥� in the valve鈥檚 description.

There are all types of isolation valves in the field today鈥攑inch valves, rocker valves, and diaphragm valves, to name a few鈥攚here their job is to ensure that whatever media is processed through the wetted area does not encounter any other materials that can contaminate that media.

Here are four contributing factors that all need to be considered first and foremost when designing an isolation valve:

• Dead Volume: The volume inside the valve cannot be flushed during normal operation. Minimizing or eliminating dead volume is essential in applications where cross-contamination is an issue, such as drawing diagnostic samples from multiple patients.
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• Internal Volume: The volume trapped inside the valve assembly when the valve is closed.
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• Swept Volume: The volume of the flow path within the valve assembly. A streamlined flow path where swept volume is equal to internal volume means zero dead volume.
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• Wetted Materials: Any material that comes in contact with the media flowing through the valve.

Taking in all the factors as we have mentioned earlier with isolation valves and now putting them toward a 鈥減roportional鈥� isolation valve brings a next level of control and design for engineers to consider, especially during the medical/life science industry evolution we鈥檙e going through now. Providing the ability to vary the isolated wetted area's flow path is paramount to sensitive application success.

Whatever the means of isolation, eliminating the pulse, shock, and on/off characteristics of a standard isolation valve is achieved with a proportional isolation valve. It鈥檚 now possible to achieve soft start/smooth delivery of sensitive media to the test area. Proportional isolation valves can also provide enhanced close-loop results鈥攃ompensating for various viscosities, repeatable flow rates, positive and/or negative pressure variation, bi-directional control, latching capabilities at specific flow rates, and more.

By DOug Paynter 鈥� Proportional Product Manager 鈥� 星城web

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