What Are the Benefits of High Gauge Pressure Transmitters?
The EJA440E with DPharp digital sensor offers the performance needed to run your operations at peak performance. This ensures on-spec product, reduced waste, and improved yield, helping you increase profitability.
Poor Performance = Lost Money
Other pressure sensor technologies require an analog to digital conversion before the signal can be processed, introducing additional errors. In Yokogawa’s pressure transmitters, the DPharp sensor directly outputs a digital signal, eliminating the need for analog to digital conversion and improving performance.
Tighter Process Control
Tighter Control = Reduced Scrap
Poor performing pressure transmitters can lead to you having to run at a lower than desired set point in your control loop or scrap product that doesn’t meet spec. The DPharp sensor exhibits greater linearity and repeatability with no inherent hysteresis, providing tighter process control.
The EJA440E reduces total cost of ownership by having safety as standard, extending calibration intervals, and utilizing a common communication platform for all protocols.
Safety as Standard
Inherently Safe = Reliability
At Yokogawa, safety is never an option. All Yokogawa pressure transmitters are designed and certified to IEC61508:2010 Parts 1 through 7 and IEC61511:2004 Parts 1 through 3 by Exida® and TÜV Rheinland®.
As standard, all Yokogawa transmitters are certified for single transmitter use in SIL 2 safety applications and dual transmitter use in SIL 3 safety applications. The same transmitter can be used for both process control and safety applications. Managing two separate transmitter models is no longer necessary, reducing spares inventory and simplifying daily operations.
Extended Calibration Check Intervals
Quicker Maintenance = Less Downtime
When devices are initially installed, they operate at peak performance, but what happens after they are running under various process conditions and poorly managed or maintained? Changing operating conditions can cause transmitters to drift to the point where they are no longer able to make accurate measurements for the process loop they are installed in, resulting in poor quality or an impact to product yields. This requires a calibration check interval to ensure you’re operating within desired error limits.
Yokogawa EJA-E series pressure transmitters have the long-term stability of ±0.1% per 10 years under all operational conditions, reducing calibration frequencies. As you gain experience with these transmitters, the interval between calibration checks is extended. Long-term this can help reduce your maintenance cost by up to 34%. Spend your time where it is needed.
Standard Communication Protocol
No Learning Curve = Smooth Change Over
Yokogawa transmitters support all industry standard field device communication protocols. Interoperability and interchangeability can be ensured. Use all the same tools and work procedures as before. Yokogawa transmitters are available with analog 4 to 20mA signal with either BRAIN® digital protocol or HART® digital protocol; Low Power analog 1 to 5 VDC with HART® digital protocol; or all digital FOUNDATION® Fieldbus or PROFIBUS® PA protocol.
With the rapid globalization of markets, numerous international standards and approvals are becoming necessary. Yokogawa pressure transmitters have acquired various international certifications including FM, CSA, ATEX, IECEx, INMETRO, KOSHA, EAC, and NEPSI.
|Agency Approvals||Marine Certificates||Country Registration|
|ABS (American Bureau of Shipping)
Det Norske Veritas
Nippon Kaiji Kyokai
The proven DPharp technology of the EJA440E increases plant availability with its advanced diagnostics and quicker resolution of maintenance issues through multiple communication options. Verified by independent third parties around the world, our transmitter provides superior reliability and performance.
Less Downtime = Making Product
Starting with a clean sheet of paper, Yokogawa developed in the early 1990s a completely new pressure sensing technology - the DPharp sensor. Yokogawa made a large commitment of resources and money in its development. That dedication paid off, and by late 2016, there are over 11 million installed Yokogawa transmitters and calibrators worldwide using this technology. The DPharp sensor is a proven technology.
Good Diagnostics = Fewer Surprises
Unlike traditional analog sensors, which are passive, the DPharp sensor is an active digital sensor. This means it is inherently safe and constantly supplying a signal even if there has been no change in process pressure. If the signal is lost, the transmitter’s self-diagnostics will alert you if there is an issue.
In addition, the transmitter features Back-check Technology (BCT) that reverse checks all calculations in real-time. These proven-over-time features improved reliability, resulting in fewer trips to the field and better process availability.
Independent Third Party Verification
Less Downtime = Making Product
The Yokogawa EJA-E pressure transmitter series' performance and reliability have been verified by independent third parties from around the world. From Safety System SIL rating to general performance evaluations, the EJA-E series has met or surpassed every test that it has been given.
Multiple Communication Options
Quicker Maintenance = Less Downtime
Save Time, Save Money. Yokogawa offers the FieldMate / LPS platform to help you communicate and track your pressure transmitters. FieldMate is a Windows-based communication suite that is installed on a standard PC, laptop, or tablet computer. It can assist you in managing your entire instrument inventory. FieldMate HHC is a traditional hand-held communicator that allows you to communicate with transmitters in the field. If you forget your HHC, the Local Parameter Setting (LPS) feature of your Yokogawa transmitter allows you to update nine parameters without the HHC.
More Information = Found Money
Easy to read indicator provides all the information you need. The indicator can display any of the variables measured (DP, SP, Capsule temperature); alarm codes with short text; and a sweeping bar graph to give a graphical representation of the process. Fully programmable, the indicator is customizable for your needs. Unlike other suppliers' transmitters, the indicator is not driven off the 4 to 20mA analog signal, but, exist as a separate circuit allowing the display to operate independently from the output signal.
|Primary Variable||Gauge Pressure|
|Primary Variable||±0.055% of Span|
|Stability (All Normal Operating Conditions)|
|Primary Variable||±0.1% of URL per 10 years|
|EJA440E||19,100 psi (132 MPa)|
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For Absolute or Gauge Pressure Transmitters, Yokogawa offers a complete line of IEC 61518 compliant 2-Valve manifolds. Available in T-Style, H-Style, Wafer-Style, and Bottom Process Connection Style. Options include ASME B31.1 (Power) Compliant, ISO 15848 Compliant, and TA-Luft Compliant.
Download this eBook and learn:
- The basic physics of pressure
- Different types of pressure sensors
- Features of pressure transmitters
- Pressure transmitters communications standards
- Key characteristics of pressure
- Common types of diaphragm seals
Discover the safety features built-in to the Yokogawa digital pressure sensors (DPharp).
- EJX and EJA-E Series Differential Pressure and Pressure Transmitters Installation Manual (7.2 MB)
- Differential Pressure and Pressure Transmitter (6.3 MB)
- Manual Change 22-24E: EJX-A and EJA-E Series Differential Pressure and Pressure Transmitters (186 KB)
- DPharp Fieldbus Communication Type (3.7 MB)
- DPharp HART 5/7 Communication Type (12.2 MB)
- DPharp BRAIN Communication Type (2.7 MB)
- DPharp PROFIBUS PA Communication Type (6.2 MB)
- EJX/EJA-E series NEPSI Certification[Option code: /NF2, /NF21, /NS21, /NS24 and /NS25] (622 KB)
- Manual Change 22-25E: EJX/EJA-E series NEPSI Certification[Option code: /NF2, /NF21, /NS21, /NS24 and /NS25] (312 KB)
- EJA440E Gauge Pressure Transmitter (463 KB)
- Drawings - EJA440E (Universal Flange) (388 KB)
- Drawings - EJA310E, EJA430E, and EJA440E (/N1 Option) (522 KB)
- CMPL - DPharp EJA-E Series (Transmitter Section) (237 KB)
- Drawings - EJA310E, EJA430E, EJA440E with Option Code /N2 and /N3 (524 KB)
- /U1 Long Vent Plug (254 KB)
- 3D CAD Configurator - EJA440E
- CMPL - EJA310E, EJA430E, and EJA440E (Pressure-detector Section) (391 KB)
Is it true that 4-20 mA HART will be phased out in the near future? Is a transducer equal to a transmitter? Tune in to hear the debunking of these myths.
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