pH Sensors

Your challenging needs require innovative solutions that provide accurate & reliable pH measurement.

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What is pH

What is pH?

pH measures the acidity or alkalinity of a solution, which is determined by the concentration of hydrogen ions (H+) or hydroxyl ions (OH-) present. The most common method for inline pH measurement is potentiometric glass pH sensors. These sensors, sometimes called “pH probes”, work by producing an electrical voltage that is proportional to the hydrogen ion concentration in the fluid. Each pH sensor typically has three main components: a glass sensing electrode, a temperature element and a reference electrode.

If the hydrogen ion concentration of the fluid is: 

  • Higher on the outside of the glass electrode than on the inside, a positive voltage occurs, indicating that the process is acidic.  

  • Lower on the outside of the glass electrode than on the inside, a negative voltage occurs, indicating the process is basic.  

  • The same on each side of the glass electrode, the voltage is zero, indicating the process is neutral. 

The pH of the process fluid is then calculated by the transmitter using the voltage difference between the sensing electrode and the reference electrode.

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pH Sensors for Every Need

General Purpose

Ideal for most general applications where coating is not an issue, these general purpose pH sensors feature a double junction reference that aids sensor resistance to harsh environments and helps prolong sensor life. The double junction protects the reference element of the pH sensor from poisoning ions, such as ammonia, chlorine, cyanides and sulfides.

Dirty Process Fluids

Designed for accuracy and reliability in dirty process fluids, these anti-coating pH sensors feature a large area reference junction with a helical reference pathway that minimizes the effects of coating and plugging. They are also available with flat glass for better protection against abrasion from suspended solids in the process fluid​.​ 

High Temperature &/or Pressure

Over time, the high temperature of process fluids can dramatically increase the rate at which the glass bulb of a pH sensor degrades, decreasing its responsiveness. For most pH sensors, every 10 °C (50 °F) increase in process temperature reduces pH sensor lifetime by half. Rosemount high-performance pH sensors are specifically designed for use when measuring pH at higher temperatures greater than 40 °C (104 °F) as they feature specially formulated temperature-resistant glass that provides a longer sensor life in applications with elevated temperatures.  

These pH sensors also utilize a high viscosity reference electrolyte that provides protection against pressure effects greater than 100 psig. 

Harsh Chemicals

When a process fluid contains harsh chemicals, some of these chemicals can diffuse through the reference junction of a pH sensor and into the reference chamber. There, they react with the reference electrode and alter its electrical potential, making the pH reading unstable and inaccurate.  

These Rosemount anti-poisoning pH sensors feature a triple reference junction design. Each successive junction delays the diffusion of poisoning chemicals, making it more difficult for these chemicals to reach the reference electrode. The result is a more reliable and longer lasting pH measurement. 

Special Processes

Because you have challenging needs, we also offer pH sensors for use in high-purity water applications, hygienic and sterile environments, hydrofluoric acid solutions and more.  

pH Sensor Specifications

Application Type

Product Name

VP

Pipe Tee

Submersible

Retraction

Sanitary Flange

Max Temp (F/C)

Max Pressure (psi/kPa)

Body Materials

General Purpose

Rosemount™ 3900 General Purpose pH/ORP Sensor

212 / 100

100 / 790

Ryton®

Rosemount™ 389 General Purpose pH/ORP Sensor

185 / 85

100 / 790

Tefzel®

Tough Processes

Rosemount™ 396/396P/396R pH Sensors

212 / 100

150 / 1135

SST, Titanium, Polypropylene

Rosemount™ 398/398R pH/ORP Sensor

212 / 100

250 / 1825

Tefzel®, Titanium

Rosemount™ 3300HT/3400HT/3500P High Performance pH Sensors

311 / 155

400 / 2859

Ryton®, Titanium

Special Processes

Rosemount™ 372 Hydrofluoric Acid (HF) Resistant pH Sensor

212 / 100

135 / 1035

Ultem®, Kynar®

Rosemount™ RBI pH Sensor

248 / 120

150 / 1035

Kynar®, Titanium

Rosemount™ Hx338+ Steam Sterilizable & Autoclavable pH Sensor

266 / 130

43 / 600

Glass

Benefits of Rosemount pH Sensors

No Initial Calibration

Rosemount pH sensors can help eliminate one of the biggest hassles of pH measurement – field calibration. Traditional calibration methods require taking buffers and rinse solutions from a lab to each pH sensor installation point. Rosemount pH sensors can be delivered with factory calibration embedded into the sensor’s memory, making set-up quick and easy. Simply connect the pH sensor to a Rosemount transmitter, and the latest settings can be automatically uploaded.   

Data that can be stored in the pH sensor and transmitter include:  

  • Slope 

  • Reference Offset 

  • Glass Impedance 

  • Reference Impedance 

  • Time Stamp 

  • Sensor Serial Number 

  • Manufactured Date 

When recalibration is needed, Rosemount pH sensors can be taken to the lab for recalibration in a safe, controlled environment. pH sensors can also be calibrated in advance and stored until needed. Once reinstalled in the process location and connected to the transmitter, the pH sensor’s diagnostic history is visible to help you troubleshoot any potential issues.

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No Initial Calibration

Sensor Diagnostics

pH sensors require careful monitoring to help ensure they are functioning properly and to provide an understanding of the process effects on the sensor. Many Rosemount pH sensors can provide real-time monitoring to keep you informed. 

  • Live Diagnostics: 

  • Glass Impedance evaluates pH sensor condition and performance which can indicate coating and exposure to high temperature.  

  • Reference Impedance and mV Input can indicate coating, poisoning and high temperatures. 

  • Faults & Warnings: Set points for faults and warnings can be programmed from the host or at the measurement point. 

  • pH Slope: Reflects the pH sensitivity of the glass electrode. 

  • mV Offset: Cumulative error of the reference cell. High offsets are indicative of coating or poisoning conditions in the process.

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Sensor Diagnostics

Complementary Transmitters

Rosemount pH sensors work together with Rosemount liquid analysis transmitters to provide accurate and reliable diagnostic information to help keep you informed. The transmitters are offered with a variety of options, including 2-wire, 4-wire, multiple sensor inputs and more. An explosion-proof transmitter designed to perform in harsh environments is also available. 

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Liquid Analysis Transmitter

Lifecycle Services

Extend the life of your Rosemount pH sensors and transmitters, maximize your processes and reduce downtime with Lifecycle Services. From simple repairs to complex projects, Emerson supports you with services that improve the maintenance, reliability and performance of your products. Learn more.

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pH Sensor Liquid Application

FAQs

What are pH sensors?
How does a pH sensor work?
How is a pH meter calibrated?
Will pH measurement change with temperature?
Can a pH sensor measure ORP?
What are some uses for pH sensors?
Can pH sensors be reused?
Which pH sensor is best for my application?
How does a pH sensor work with a transmitter?
How long does a pH sensor last?
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pH Orp Sensors

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