KPH601 Online PH Sensor Signal Output: RS-485 (Modbus/RTU Protocol)
1.Temperature compensation
Temperature/time behavior of combination electrodes When the temperature change of the medium is rapid, a conventional pH electrode will drift until the temperature of the electrode and the medium become equal. In order for a combination electrode to react rapidly to the temperature changes of the medium, the temperature of the inner lead-off element and the outer reference element must always be identical. Alternatively the temperature dependance of the lead-off elements have to be equal to zero.
Optimal electrodes are above all distinguished by the symmetrical warming up or cooling down of their lead-off elements. They have the same temperature coefficient and isothermal Intersection at pH 7 and 0 mV. Thereby a short response time to temperature changes, as well as an accurate temperature compensation can be guaranteed.
2.General pH Information
B.1 pH Measurement Theory
pH is the negative logarithm of the hydrogen ion activity and a measure of the acidity or
alkalinity of a solution.
pH = –log A[H+]
pH is normally measured using a glass electrode and a reference electrode.
The glass electrode acts as a transducer, converting chemical energy (the hydrogen ion
activity) into an electrical energy (measured in millivolts). The reaction is balanced and the
electrical circuit is completed by the flow of ions from the reference solution to the solution
under test.
The electrode and reference solution together develop a voltage (emf) whose magnitude
depends on the type of reference electrode, the internal construction of the glass
electrode, the pH of the solution and the temperature of the solution. This voltage is
expressed by the Nernst Equation:
E = Eo – (2.3 RT/F) x log A[H+]
E = Eo – (slope) x log A[H+]
where:
E = the emf of the cell
Eo = the zero potential (isopotential) of the system. It depends on the internal
construction of the glass and reference electrodes.
R = gas constant
T = temperature in Kelvin
A[H+] = activity of the hydrogen ion (assumed to be equivalent to the concentration of
hydrogen ions)
F = Faraday constant
For every unit change in pH (or decade change in ion concentration) the emf of the
electrode pair changes by 59.16 mV at 25 °C. This value is known as the Nernstian Slope
of the electrode.
The pH electrode pair is calibrated using solutions of known and constant hydrogen ion
concentration, called buffer solutions. The buffer solutions are used to calibrate both the
electrode isopotential and slope.
3.Technical Specifications
| Model |
KPH601 |
| Measuring Range |
0~14pH |
| Resolution |
0.01pH |
| Accuracy |
±0.1pH |
| Working Temperature |
0~65℃ |
| Working Pressure |
<0.2MPa |
| Temperature Compensation |
Auto temperature compensation (NTC) |
| Power Supply |
12~24VDC ±10% |
| Signal Output |
RS-485(Modbus/RTU) |
| Wetted Material |
POM |
| Mounting Method |
Immersion mounting, 3/4 NPT thread |
| Cable Length |
5 meters, other lengths can be customized |
| Calibration |
Two-point calibration |
| Power Consumption |
<0.3W@12V |
| Protection Grade |
IP68 |
4.Dimensional Drawing
Note:The sensor connector is M16-5 core waterproof joint male head.
5.Installation
Note: The sensor should not be installed upside down or horizontally when installed, at least at an angle of 15 degrees or more.
Contact Us
Website www.kacise.com
Phone +86-17719566736
Email sales@kacise.com
Location Tangyan South Road, High-tech Zone, Xi'an City, Shaanxi Province, China
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