With the introduction of the plics family around 10 years ago, VEGA turned the vision of simple, standardized measurement of level and pressure into reality. The VEGABAR 80 series represents a systematic further development of the concept and the products. The clear structure of the new instrument series ensures easy selection when looking for the right instrument for a particular application. The new handling with “quick start” procedure allows fast, simple and reliable setup and commissioning. What is more, the integrated diagnostics system now makes really fast maintenance and servicing possible.
The VEGABAR 80 product line-up
Making three from five
With the new VEGABAR 80 series, all conceivable applications can be covered with only three process pressure transmitters: The all-rounder VEGABAR 82 with ceramic measuring cell, which can cover 80 per cent of all applications. VEGABAR 83 with metallic measuring cell, the first choice for high pressure applications. The classic VEGABAR 81 with chemical seal, which is always deployed when high temperature and/or chemical resistance is required.
Ceramic versus metallic
A lot has happened in the development of both metallic and ceramic measuring cells in recent years.
The biggest leaps in technology, however, are being experienced by the ceramic measuring cell CERTEC. No wonder it is our core technology. Only a few suppliers have ceramic-capacitive cells in their portfolio, and fewer still have the know-how to produce them themselves. 80 per cent of all units sold operate with ceramic sensors. In principle, both technologies can be used in the majority of applications. But we are firmly convinced that in many cases ceramic is the better technology, because it is more robust and durable.
Nothing can shock ’em
Of course, there are two sides to every coin. Ceramic measuring cells have many advantages, but also some weaknesses, e.g. their susceptibility to thermal shock and moisture. Through intensive further development of CERTEC, both of these problems could be significantly reduced or even eliminated altogether.
Equipping VEGABAR 82 with temperature shock compensation resulted in a technological masterpiece. A patent for this worldwide innovation has already been applied for.
When sudden temperature changes occur, it can take several minutes before sensors with ceramic measuring cells begin delivering reliable readings again. Users often did not know that a sensor was experiencing a temperature shock and transmitting incorrect values. With the ceramic measuring cell in VEGABAR 80, customers can be absolutely sure that they are getting correct measurement data. Because now, even very fast temperature changes cannot affect the pressure measurement.
And this is how it works: In addition to the usual temperature sensor on the backside of CERTEC, there is a second sensor in the glass joint directly behind the ceramic diaphragm – this sensor is mounted in an extremely technically challenging process. Due to its exposed position, it doesn’t miss even the slightest temperature change. Any thermal shock is fully compensated by means of a sophisticated algorithm.
A side benefit of the second sensor directly next to the process is a temperature measurement of high quality, with an accuracy of ± 2 K. Earlier versions of the measuring cell could also output a temperature signal, however, due to its slowness the sensor was only suitable for storage tanks, which normally have a relatively stable temperature. So now, in many applications, installation of a separate temperature sensor can be eliminated. NAMUR has already commented very positively about this feature.
Moisture? No problem
The typical moisture sensitivity could also be significantly lowered. The problem with the naked electrodes of capacitive systems: ingressing dielectric fluid, such as water, changes the dielectric constant and the capacitance, and thus the pressure reading. However, the instrument cannot distinguish the reason for the change in capacitance. The solution: in the new instrument generation, VEGA has applied a measurement and a reference capacitor and covered the entire surface of the measuring cell with a thin layer of glass. Since due to the glass passivation there is no longer any contact with the medium, the dielectric constant in the entire system changes, i.e. for both the measurement and the reference capacitances. A coefficient is formed from the two values and computationally balanced for the measuring result.
Another special feature of the VEGA ceramic is its high overload resistance of up to factor 200 – more than double what other ceramics are able to provide.
Progress has also been made with regard to the temperature range. 120°C was previously the limit with the standard version, but CERTEC can now withstand temperatures up to 130°C. These additional 10° C are especially interesting for the food and pharmaceutical industry because, in many cases, customers no longer have to buy the high-temperature version for their sterilization processes.
Application temperatures have increased in relatively small steps, but when it comes to extending the measuring ranges, one could rightfully say that we have put on a pair of proverbial “seven-league boots.” VEGABAR 82 boasts a tiny measuring range of only 25 mbar (previously 100 mbar). And that completely without electronic turndown. In this area, too, we are in the lead – there has never been anything like it before. The measuring range has also significantly increased in the upward direction, from previously 60 to 100 bar. This has clearly extended the application limits. Customers will thus be able to solve even more applications with the standard VEGABAR 82 sensor in the future.
No such thing as impossible
CERTEC is the only ceramic measuring cell on the market that allows absolute front-flush mounting, as its radial seal is recessed and protected from the medium. It can bring this advantage to bear especially in abrasive applications. Not without reason is it used worldwide in the paper industry in more than 40,000 measuring points. Buildup is also a thing of the past. The sensor simply cleans itself in the flowing medium.